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{{Pearce | {{Pearce publications notice}} | ||
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This category lists completed projects for the [[:Category:MOST]]. Following the individual links leads to a summary of the project and key findings, related [[:Category:MOST literature reviews|literature reviews]], [[:Category:MOST methods|methods, protocols, and equipment]], and an [[open access]] version of the paper published in a peer reviewed [[Journals|journal]]. | This category lists completed projects for the [[:Category:MOST]]. Following the individual links leads to a summary of the project and key findings, related [[:Category:MOST literature reviews|literature reviews]], [[:Category:MOST methods|methods, protocols, and equipment]], and an [[open access]] version of the paper published in a peer reviewed [[Journals|journal]]. | ||
== 2021 Completed Projects & Publications == | ==2021 Completed Projects & Publications== | ||
<gallery | |||
File:3dmagcoil.png|[[3-D printed magnetic soft magnetic helical coil actuators of iron oxide embedded polydimethylsiloxane]] | <gallery> | ||
File:scp.png|[[Potential of microbial protein from hydrogen for preventing mass starvation in catastrophic scenarios]] | File:3dmagcoil.png|link=[[3-D printed magnetic soft magnetic helical coil actuators of iron oxide embedded polydimethylsiloxane]]|[[3-D printed magnetic soft magnetic helical coil actuators of iron oxide embedded polydimethylsiloxane]] | ||
File:11697-vol3.cover.jpg|[https://www. | File:scp.png|link=[[Potential of microbial protein from hydrogen for preventing mass starvation in catastrophic scenarios]]|[[Potential of microbial protein from hydrogen for preventing mass starvation in catastrophic scenarios]] | ||
File:Graphabsvos.png|link=[[A review of the value of solar methodology with a case study of the U.S. VOS]]|[[A review of the value of solar methodology with a case study of the U.S. VOS]] | |||
File:RabbitsFenced5.jpg|link=[[Conceptual Design and Rationale for a New Agrivoltaics Concept: Pastured-Raised Rabbits and Solar Farming]]|[[Conceptual Design and Rationale for a New Agrivoltaics Concept: Pastured-Raised Rabbits and Solar Farming]] | |||
File:Stst_framework.png|link=[[Applying a Relationally and Socially Embedded Decision Framework to Solar Photovoltaic Adoption: A Conceptual Exploration]]|[[Applying a Relationally and Socially Embedded Decision Framework to Solar Photovoltaic Adoption: A Conceptual Exploration]] | |||
File:Pv-ev-walmart.jpg|link=[[Electric Vehicle Charging Potential from Retail Parking Lot Solar Photovoltaic Awnings]]|[[Electric Vehicle Charging Potential from Retail Parking Lot Solar Photovoltaic Awnings]] | |||
File:Nigeria-ep.jpg|link=[[Low emissions analysis platform model for renewable energy: Community-scale case studies in Nigeria]]|[[Low emissions analysis platform model for renewable energy: Community-scale case studies in Nigeria]] | |||
File:Graph_abs_na_pv_hp.png|link=[[Economics of Grid-Tied Solar Photovoltaic Systems Coupled to Heat Pumps: The Case of Northern Climates of the U.S. and Canada]]|[[Economics of Grid-Tied Solar Photovoltaic Systems Coupled to Heat Pumps: The Case of Northern Climates of the U.S. and Canada]] | |||
File:Shotcretepv.jpg|link=[[Geographic potential of shotcrete photovoltaic racking: Direct and low-concentration cases]]|[[Geographic potential of shotcrete photovoltaic racking: Direct and low-concentration cases]] | |||
File:Tio2rod-sphere.jpg|link=[[Reaction Induced Multifunctional TiO2 Rod/Spherical Nanostructured Materials for Screen Printed Dye Sensitized Solar Cells]]|[[Reaction Induced Multifunctional TiO2 Rod/Spherical Nanostructured Materials for Screen Printed Dye Sensitized Solar Cells]] | |||
File:Solar panels with sheep in Belgium.jpg|link=[[Integrating solar energy with agriculture: Industry perspectives on the market, community, and socio-political dimensions of agrivoltaics]]|[[Integrating solar energy with agriculture: Industry perspectives on the market, community, and socio-political dimensions of agrivoltaics]] | |||
File:Nigeriasolar.jpg|link=[[Demonstration of the integrated rural energy planning framework for sustainable energy development in low-income countries: Case studies of rural communities in Nigeria]]|[[Demonstration of the integrated rural energy planning framework for sustainable energy development in low-income countries: Case studies of rural communities in Nigeria]] | |||
File:Rollerscrew.png|link=[[Open Source 3D-Printable Planetary Roller Screw for Food Processing Applications]]|[[Open Source 3D-Printable Planetary Roller Screw for Food Processing Applications]] | |||
File:11697-vol3.cover.jpg|link=[[Optoelectronic Properties: Carrier Transport, Recombination, and Stability]]|[[Optoelectronic Properties: Carrier Transport, Recombination, and Stability]] | |||
File:Backyardprotien.png|link=[[U.S. Potential of Sustainable Backyard Distributed Animal and Plant Protein Production During & After Pandemics]]|[[U.S. Potential of Sustainable Backyard Distributed Animal and Plant Protein Production During & After Pandemics]] | |||
File:Osdiam.png|link=[[Open Source 3-D Filament Diameter Sensor for Recycling, Winding and Additive Manufacturing Machines]]|[[Open Source 3-D Filament Diameter Sensor for Recycling, Winding and Additive Manufacturing Machines]] | |||
File:pvwalmartmicrogrid.jpg|link=[[Performance and analysis of retail store‐centered microgrids with solar photovoltaic parking lot, cogeneration, and battery‐based hybrid systems]]|[[Performance and analysis of retail store‐centered microgrids with solar photovoltaic parking lot, cogeneration, and battery‐based hybrid systems]] | |||
File:vacdry.png|link=|[[Open Source Vacuum Oven Design for Low-Temperature Drying: Performance Evaluation for Recycled PET and Biomass]] | |||
File:Hot-coldhx.PNG|link=[[Finite Difference Heat Exchanger Model: Flow Maldistribution with Thermal Coupling]]|[[Finite Difference Heat Exchanger Model: Flow Maldistribution with Thermal Coupling]] | |||
File:Circpet.png|link=[[Systems Analysis Approach to Polyethylene Terephthalate and Olefin Plastics Supply Chains in the Circular Economy: A Review of Data Sets and Models]]|[[Systems Analysis Approach to Polyethylene Terephthalate and Olefin Plastics Supply Chains in the Circular Economy: A Review of Data Sets and Models]] | |||
File:Cv-cactus.png|link=[[Open source disease analysis system of cactus by artificial intelligence and image processing]]|[[Open source disease analysis system of cactus by artificial intelligence and image processing]] | |||
File:nowpower.jpg|link=|[https://www.lesswrong.com/posts/qkvk22oc3YeEJpEfC/cost-effectiveness-of-agi-safety-versus-preparation-for-loss Cost Effectiveness of AGI Safety Versus Preparation for Loss of Electricity/Industry] | |||
File:ALLFED-Loho-Green-Featured-Image.jpg|link=[https://osf.io/jns2e Rapid Repurposing of Biorefinery, Pulp & Paper and Breweries for Lignocellulosic Sugar Production in Global Food Shortages]|[https://osf.io/jns2e Rapid Repurposing of Biorefinery, Pulp & Paper and Breweries for Lignocellulosic Sugar Production in Global Food Shortages] | |||
File:Methaneregvs24.png|link=[https://osf.io/94mkg/ Methane Single Cell Protein: securing protein supply during global food catastrophes]|[https://osf.io/94mkg/ Methane Single Cell Protein: securing protein supply during global food catastrophes] | |||
File:Agrivoltaics-yes.jpg|link=|[https://osf.io/preprints/socarxiv/efasx/ Do Agrivoltaics Improve Public Support for Solar Photovoltaic Development? Survey Says: Yes!] | |||
File:Tocatchtesun.jpg|link=[[To Catch the Sun]]|[[To Catch the Sun]] | |||
File:Gentvent.jpg|link=[https://osf.io/wd5s2 Overcoming Supply Chain Disruptions During Pandemics by Utilizing Found Hardware for Open Source Gentle Ventilation]|[https://osf.io/wd5s2 Overcoming Supply Chain Disruptions During Pandemics by Utilizing Found Hardware for Open Source Gentle Ventilation] | |||
</gallery> | |||
==2021 Popular Audience Articles== | |||
<gallery heights="130" mode="packed"> | |||
File:Chips2forrecycling.jpg|[https://theconversation.com/how-to-turn-plastic-waste-in-your-recycle-bin-into-profit-147081 How to turn plastic waste in your recycle bin into profit] | |||
File:Littledavincisjmp.jpg|[https://christianamyx.com/index.php/2021/02/01/interview-with-professor-joshua-pearce-phd-in-materials-engineering/ Pearce Interview on Little DaVinces] | |||
File:Getbettergarbage.png|[https://anchor.fm/recyclesmart/episodes/Episode-24-How-to-turn-your-plastic-waste-into-profit-utilizing-the-DRAM-3D-printing-method-eq4a7l Get Better at Garbage: Episode 24: How to turn your plastic waste into profit utilizing the DRAM 3D printing method.] | |||
File:Stem_podcast.png|[http://dailystem.com/2021/02/15/stem-everyday-190-open-source-stem-making-feat-joshua-pearce/ STEM Everyday #190 - Open Source & STEM & Making] | |||
File:Covidtop.png|[https://theconversation.com/tobacco-killed-500-000-americans-in-2020-is-it-time-to-control-cigarette-makers-153611 Tobacco killed 500,000 Americans in 2020 – is it time to control cigarette-makers?] | |||
File:Oh-covid.jpg|[https://doi.org/10.1016/j.ohx.2021.e00190 Authors from All Over the World Share Their Tech in HardwareX to Battle COVID-19] | |||
File:Zerowastecountdown.png|[https://zerowastecountdown.podbean.com/e/127-open-source-3d-printing/ Zero Waste Countdown] | |||
File:3d_printer_mask.jpg|[https://opensource.com/article/21/3/desktop-3d-printer Affordable high-temperature 3D printers at home] | |||
File:Emergingscitechsdg.png|[https://sdgs.un.org/sites/default/files/2021-05/IATT%20report%20on%20emerging%20techs%202021.pdf Distributed Recycling and Additive Manufacturing for Sustainable Development Goals] | |||
File:STI-2021.png|[https://sdgs.un.org/events/session-7-delivering-decade-action-achievement-2030-agenda-and-its-sdgs-next-steps-tfm-and Delivering in Decade of Action for achievement of the 2030 Agenda and its SDGs: Next steps for the TFM and its partners] | |||
File:OSH-money.png|[https://zenodo.org/record/4754167 Show Me the Money! Economic and Policy Aspects of Open Source Scientific Hardware at CZI's Open and Reproducible Hardware for Science Workshop] | |||
File:Publicinvention.png|[https://www.youtube.com/watch?v=OQWCCKMtvqw Panel: Preparing for the Next Global Crisis] | |||
File:Acs2021.png|[https://gcande.digitellinc.com/gcande/sessions/1845/view Systems analysis approach to PET and olefin plastics supply chains in the circular economy: A review of datasets and models] | |||
</gallery> | </gallery> | ||
== 2020 Completed Projects & Publications == | ==2020 Completed Projects & Publications== | ||
<gallery | |||
File:Fff-poc.png|[[Polymer-derived SiOC Replica of Material Extrusion-based 3-D Printed Plastics]] | <gallery> | ||
File:Grid-defect-biz.png|[[The Potential for Grid Defection of Small and Medium Sized Enterprises Using Solar Photovoltaic, Battery and Generator Hybrid Systems]] | File:createsharesave.jpg|link=[[Create, Share, and Save Money Using Open-Source Projects]]|[[Create, Share, and Save Money Using Open-Source Projects]] | ||
File:3dpclass.png|[[Bridging the Social and Environmental Dimensions of Global Sustainability in STEM Education with Additive Manufacturing]] | File:Fff-poc.png|link=[[Polymer-derived SiOC Replica of Material Extrusion-based 3-D Printed Plastics]]|[[Polymer-derived SiOC Replica of Material Extrusion-based 3-D Printed Plastics]] | ||
File:Scale-gh.jpg|[[Scaling of greenhouse crop production in low sunlight scenarios]] | File:Grid-defect-biz.png|link=[[The Potential for Grid Defection of Small and Medium Sized Enterprises Using Solar Photovoltaic, Battery and Generator Hybrid Systems]]|[[The Potential for Grid Defection of Small and Medium Sized Enterprises Using Solar Photovoltaic, Battery and Generator Hybrid Systems]] | ||
File:celltower.jpg|[[Limiting liability with positioning to minimize negative health effects of cellular phone towers]] | File:3dpclass.png|link=[[Bridging the Social and Environmental Dimensions of Global Sustainability in STEM Education with Additive Manufacturing]]|[[Bridging the Social and Environmental Dimensions of Global Sustainability in STEM Education with Additive Manufacturing]] | ||
File:Clubfootbrace.png|[[Open-Source Three-Dimensional Printable Infant Clubfoot Brace]] | File:Scale-gh.jpg|link=[[Scaling of greenhouse crop production in low sunlight scenarios]]|[[Scaling of greenhouse crop production in low sunlight scenarios]] | ||
File:blackpc.png|[[Atomic layer deposited aluminium oxide mitigates outgassing from fused filament fabrication–based 3-D printed components]] | File:celltower.jpg|link=[[Limiting liability with positioning to minimize negative health effects of cellular phone towers]]|[[Limiting liability with positioning to minimize negative health effects of cellular phone towers]] | ||
File:Finopenhardware.png|[[Towards national policy for open source hardware research: The case of Finland]] | File:Clubfootbrace.png|link=[[Open-Source Three-Dimensional Printable Infant Clubfoot Brace]]|[[Open-Source Three-Dimensional Printable Infant Clubfoot Brace]] | ||
File:recylce-choices.jpg|[[Technical pathways for distributed recycling of polymer composites for distributed manufacturing: Windshield wiper blades]] | File:blackpc.png|link=[[Atomic layer deposited aluminium oxide mitigates outgassing from fused filament fabrication–based 3-D printed components]]|[[Atomic layer deposited aluminium oxide mitigates outgassing from fused filament fabrication–based 3-D printed components]] | ||
File:Adblock.PNG|[[Energy Conservation with Open Source Ad Blockers]] | File:Finopenhardware.png|link=[[Towards national policy for open source hardware research: The case of Finland]]|[[Towards national policy for open source hardware research: The case of Finland]] | ||
File:DRAM.png|[[Plastic recycling in additive manufacturing: A systematic literature review and opportunities for the circular economy]] | File:recylce-choices.jpg|link=[[Technical pathways for distributed recycling of polymer composites for distributed manufacturing: Windshield wiper blades]]|[[Technical pathways for distributed recycling of polymer composites for distributed manufacturing: Windshield wiper blades]] | ||
File:Neem-ZnO.PNG|[[Antibacterial and anticancer activity of hydrothermally-synthesized zinc oxide nanomaterials using natural extracts of neem, pepper and turmeric as solvent media]] | File:Adblock.PNG|link=[[Energy Conservation with Open Source Ad Blockers]]|[[Energy Conservation with Open Source Ad Blockers]] | ||
File:Sand-plastic.png|[[Potential of distributed recycling from hybrid manufacturing of 3-D printing and injection molding of stamp sand and acrylonitrile styrene acrylate waste composite]] | File:DRAM.png|link=[[Plastic recycling in additive manufacturing: A systematic literature review and opportunities for the circular economy]]|[[Plastic recycling in additive manufacturing: A systematic literature review and opportunities for the circular economy]] | ||
File:Neem-ZnO.PNG|link=[[Antibacterial and anticancer activity of hydrothermally-synthesized zinc oxide nanomaterials using natural extracts of neem, pepper and turmeric as solvent media]]|[[Antibacterial and anticancer activity of hydrothermally-synthesized zinc oxide nanomaterials using natural extracts of neem, pepper and turmeric as solvent media]] | |||
File:Covid19.JPG|[[A review of open source ventilators for COVID-19 and future pandemics]] | File:Sand-plastic.png|link=[[Potential of distributed recycling from hybrid manufacturing of 3-D printing and injection molding of stamp sand and acrylonitrile styrene acrylate waste composite]]|[[Potential of distributed recycling from hybrid manufacturing of 3-D printing and injection molding of stamp sand and acrylonitrile styrene acrylate waste composite]] | ||
File:Openscience.jpg|[[From Open Access to Open Science: The Path From Scientific Reality to Open Scientific Communication]] | File:Covid19.JPG|link=[[A review of open source ventilators for COVID-19 and future pandemics]]|[[A review of open source ventilators for COVID-19 and future pandemics]] | ||
File:maskmakers.JPG|[[Open-Source Medical Hardware for Pandemics]] | File:Openscience.jpg|link=[[From Open Access to Open Science: The Path From Scientific Reality to Open Scientific Communication]]|[[From Open Access to Open Science: The Path From Scientific Reality to Open Scientific Communication]] | ||
File:sov-eng.png|[[Energy Policy for Energy Sovereignty: Can policy tools enhance energy sovereignty?]] | File:maskmakers.JPG|link=[[Open-Source Medical Hardware for Pandemics]]|[[Open-Source Medical Hardware for Pandemics]] | ||
File:pouchlamsolar.png|[[Demonstration of a simple encapsulation technique for prototype silicon solar cells]] | File:sov-eng.png|link=[[Energy Policy for Energy Sovereignty: Can policy tools enhance energy sovereignty?]]|[[Energy Policy for Energy Sovereignty: Can policy tools enhance energy sovereignty?]] | ||
File:Oscale.png|[[Open Source Digitally Replicable Lab-Grade Scales]] | File:pouchlamsolar.png|link=[[Demonstration of a simple encapsulation technique for prototype silicon solar cells]]|[[Demonstration of a simple encapsulation technique for prototype silicon solar cells]] | ||
File:OSGrinder.png|[[Open-Source Grinding Machine for Compression Screw Manufacturing]] | File:Oscale.png|link=[[Open Source Digitally Replicable Lab-Grade Scales]]|[[Open Source Digitally Replicable Lab-Grade Scales]] | ||
File:Covidenergy.jpg|[[The energy crises revealed by COVID: Intersections of Indigeneity, inequity, and health]] | File:OSGrinder.png|link=[[Open-Source Grinding Machine for Compression Screw Manufacturing]]|[[Open-Source Grinding Machine for Compression Screw Manufacturing]] | ||
File:Os papr.jpg|[[Conversion of Self-Contained Breathing Apparatus Mask to Open Source Powered Air-Purifying Particulate Respirator for Fire Fighter COVID-19 Response]] | File:Covidenergy.jpg|link= [[The energy crises revealed by COVID: Intersections of Indigeneity, inequity, and health]]|[[The energy crises revealed by COVID: Intersections of Indigeneity, inequity, and health]] | ||
File:Bottlenecksco2usa.png|[[U.S. Greenhouse Gas Emission Bottlenecks: Prioritization of Targets for Climate Liability]] | File:Os papr.jpg|link=[[Conversion of Self-Contained Breathing Apparatus Mask to Open Source Powered Air-Purifying Particulate Respirator for Fire Fighter COVID-19 Response]]|[[Conversion of Self-Contained Breathing Apparatus Mask to Open Source Powered Air-Purifying Particulate Respirator for Fire Fighter COVID-19 Response]] | ||
File:Cv3dp.PNG|[[Open Source Computer Vision-based Layer-wise 3D Printing Analysis]] | File:Bottlenecksco2usa.png|link=[[U.S. Greenhouse Gas Emission Bottlenecks: Prioritization of Targets for Climate Liability]]|[[U.S. Greenhouse Gas Emission Bottlenecks: Prioritization of Targets for Climate Liability]] | ||
File:eye-state-detect.PNG|[[Real-Time Eye State Detection System for Driver Drowsiness Using Convolutional Neural Network]] | File:Cv3dp.PNG|link=[[Open Source Computer Vision-based Layer-wise 3D Printing Analysis]]|[[Open Source Computer Vision-based Layer-wise 3D Printing Analysis]] | ||
File:Clearaldcoat.png|[[Vacuum Outgassing Characteristics of Unpigmented 3-D Printed Polymers Coated with ALD Alumina]] | File:eye-state-detect.PNG|link=[[Real-Time Eye State Detection System for Driver Drowsiness Using Convolutional Neural Network]]|[[Real-Time Eye State Detection System for Driver Drowsiness Using Convolutional Neural Network]] | ||
File:Osvent.png|[[RepRapable Automated Open Source Bag Valve Mask-based Ventilator]] | File:Clearaldcoat.png|link=[[Vacuum Outgassing Characteristics of Unpigmented 3-D Printed Polymers Coated with ALD Alumina]]|[[Vacuum Outgassing Characteristics of Unpigmented 3-D Printed Polymers Coated with ALD Alumina]] | ||
File:PPE-highT3DP.PNG|[[Open Source High-Temperature Reprap for 3-D Printing Heat-Sterilizable PPE and Other Applications]] | File:Osvent.png|link=|[[RepRapable Automated Open Source Bag Valve Mask-based Ventilator]] | ||
File:osswab.jpg|[[Parametric Nasopharyngeal Swab for Sampling COVID-19 and Other Respiratory Viruses: Open Source Design, SLA 3-D Printing and UV Curing System]] | File:PPE-highT3DP.PNG|link=|[[Open Source High-Temperature Reprap for 3-D Printing Heat-Sterilizable PPE and Other Applications]] | ||
File:irep.png|[[Decentralized Renewable Hybrid Mini-Grids for Rural Communities: Culmination of the IREP Framework and Scale up to Urban Communities]] | File:osswab.jpg|link=[[Parametric Nasopharyngeal Swab for Sampling COVID-19 and Other Respiratory Viruses: Open Source Design, SLA 3-D Printing and UV Curing System]]|[[Parametric Nasopharyngeal Swab for Sampling COVID-19 and Other Respiratory Viruses: Open Source Design, SLA 3-D Printing and UV Curing System]] | ||
File:Osmoney.jpg|[[Economic Savings for Scientific Free and Open Source Technology: A Review]] | File:irep.png|link=[[Decentralized Renewable Hybrid Mini-Grids for Rural Communities: Culmination of the IREP Framework and Scale up to Urban Communities]]|[[Decentralized Renewable Hybrid Mini-Grids for Rural Communities: Culmination of the IREP Framework and Scale up to Urban Communities]] | ||
File:3dposha.png|[[Additively Manufactured Parametric Universal Clip-System: An Open Source Approach for Aiding Personal Exposure Measurement in the Breathing Zone]] | File:Osmoney.jpg|link=[[Economic Savings for Scientific Free and Open Source Technology: A Review]]|[[Economic Savings for Scientific Free and Open Source Technology: A Review]] | ||
File:arcanalyzer.jpg|[[Open Source Arc Analyzer: Multi-Sensor Monitoring of Wire Arc Additive Manufacturing]] | File:3dposha.png|link=[[Additively Manufactured Parametric Universal Clip-System: An Open Source Approach for Aiding Personal Exposure Measurement in the Breathing Zone]]|[[Additively Manufactured Parametric Universal Clip-System: An Open Source Approach for Aiding Personal Exposure Measurement in the Breathing Zone]] | ||
File:Gigabotx3zone.png|[[Towards Distributed Recycling with Additive Manufacturing of PET Flake Feedstocks]] | File:arcanalyzer.jpg|link=[[Open Source Arc Analyzer: Multi-Sensor Monitoring of Wire Arc Additive Manufacturing]]|[[Open Source Arc Analyzer: Multi-Sensor Monitoring of Wire Arc Additive Manufacturing]] | ||
File:Fpv-asi.jpg|[[Distributed manufacturing of after market flexible floating photovoltaic modules]] | File:Gigabotx3zone.png|link=[[Towards Distributed Recycling with Additive Manufacturing of PET Flake Feedstocks]]|[[Towards Distributed Recycling with Additive Manufacturing of PET Flake Feedstocks]] | ||
File:Smallfgf.jpg|[[Mechanical Properties of Direct Waste Printing of Polylactic Acid with Universal Pellets Extruder: Comparison to Fused Filament Fabrication on Open-Source Desktop Three-Dimensional Printers]] | File:Fpv-asi.jpg|link=[[Distributed manufacturing of after market flexible floating photovoltaic modules]]|[[Distributed manufacturing of after market flexible floating photovoltaic modules]] | ||
File: | File:Smallfgf.jpg|link=[[Mechanical Properties of Direct Waste Printing of Polylactic Acid with Universal Pellets Extruder: Comparison to Fused Filament Fabrication on Open-Source Desktop Three-Dimensional Printers]]|[[Mechanical Properties of Direct Waste Printing of Polylactic Acid with Universal Pellets Extruder: Comparison to Fused Filament Fabrication on Open-Source Desktop Three-Dimensional Printers]] | ||
File: | File:Sheep-pv.jpg|link=[[A First Investigation of Agriculture Sector Perspectives on the Opportunities and Barriers for Agrivoltaics]]|[[A First Investigation of Agriculture Sector Perspectives on the Opportunities and Barriers for Agrivoltaics ]] | ||
File: | File:fpv-water.png|link=[[Water Conservation Potential of Self-Funded Foam-Based Flexible Surface-Mounted Floatovoltaics]]|[[Water Conservation Potential of Self-Funded Foam-Based Flexible Surface-Mounted Floatovoltaics]] | ||
File:Graph abs ed2.png|link=[[The Economics of Classroom 3-D Printing of Open-Source Digital Designs of Learning Aids ]]|[[The Economics of Classroom 3-D Printing of Open-Source Digital Designs of Learning Aids ]] | |||
File:Snowpv-imageanal.jpg|link=[[Image Analysis Method for Quantifying Snow Losses on PV Systems]]|[[Image Analysis Method for Quantifying Snow Losses on PV Systems]] | |||
File:Smoking-death.jpg|link=[[Detecting Covert Legal Killing to Stop A New Approach to Terrorist Intention]]|[[Detecting Covert Legal Killing to Stop A New Approach to Terrorist Intention]] | |||
</gallery> | </gallery> | ||
== 2020 Popular Audience Articles == | ==2020 Popular Audience Articles== | ||
<gallery mode= | |||
<gallery heights="130" mode="packed"> | |||
File:4-10-MOSTlabventPPE.jpg|[[MOST News Coverage 2020]] | |||
File:Armageddon.jpg|[https://theconversation.com/nuclear-war-could-be-devastating-for-the-us-even-if-no-one-shoots-back-131809 Nuclear war could be devastating for the US, even if no one shoots back] | File:Armageddon.jpg|[https://theconversation.com/nuclear-war-could-be-devastating-for-the-us-even-if-no-one-shoots-back-131809 Nuclear war could be devastating for the US, even if no one shoots back] | ||
File:Opensourcedoctor.png|[https://opensource.com/article/20/3/volunteer-covid19 Contribute to open source healthcare projects for COVID-19] | File:Opensourcedoctor.png|[https://opensource.com/article/20/3/volunteer-covid19 Contribute to open source healthcare projects for COVID-19] | ||
Line 73: | Line 123: | ||
File:maskprint.png|[https://www.mtu.edu/unscripted/stories/2020/september/guest-blog-mtu-releases-three-new-opensource-tools-for-covid19.html Guest Blog: MTU Releases Three New Open-source Tools for COVID-19] | File:maskprint.png|[https://www.mtu.edu/unscripted/stories/2020/september/guest-blog-mtu-releases-three-new-opensource-tools-for-covid19.html Guest Blog: MTU Releases Three New Open-source Tools for COVID-19] | ||
File:Science experiment beaker lab.png|[https://opensource.com/article/20/10/open-source-hardware-savings Open source tools provide an economic advantage for science] | File:Science experiment beaker lab.png|[https://opensource.com/article/20/10/open-source-hardware-savings Open source tools provide an economic advantage for science] | ||
File:Internet-archive-download-free-ebook-audio-music-images.jpg|[https://upjourney.com/best-sites-to-read-online-or-download-free-books-legally 29 Best Sites to Read Online or Download Free Books (Legally) in 2020] | |||
File:Influence.jpg|[https://opensource.com/article/20/10/influence-open-source How to influence people to join open source] | |||
File:Propvsos.png|[https://journalopenhw.medium.com/open-hardware-is-economically-efficient-and-generates-a-massive-return-on-public-investment-34c1b8e73913 Open hardware is economically efficient and generates a massive return on public investment] | |||
File:Open-linux-cn.png|[https://linux.cn/article-12926-1.html 如何感召人们让其参与到开源活动中 ] | |||
</gallery> | </gallery> | ||
== 2019 Completed Projects & Publications == | ==2019 Completed Projects & Publications== | ||
<gallery | |||
File:waferbox.jpg|[[Compatibility of 3-D printed devices in cleanroom environments for semiconductor processing]] | <gallery> | ||
File:Macesi.jpg|[[MACE nano-texture process applicable for both single- and multi-crystalline diamond-wire sawn Si solar cells]] | File:waferbox.jpg|link=[[Compatibility of 3-D printed devices in cleanroom environments for semiconductor processing]]|[[Compatibility of 3-D printed devices in cleanroom environments for semiconductor processing]] | ||
File:Honeycombplasmonic.jpeg|[[Scalable honeycomb top contact to increase the light absorption and reduce the series resistance of thin film solar cells]] | File:Macesi.jpg|link=[[MACE nano-texture process applicable for both single- and multi-crystalline diamond-wire sawn Si solar cells]]|[[MACE nano-texture process applicable for both single- and multi-crystalline diamond-wire sawn Si solar cells]] | ||
File:Microwavetio2.jpg|[[Effect of microwave power irradiation on TiO2 nano-structures and binder free paste screen printed dye sensitized solar cells]] | File:Honeycombplasmonic.jpeg|link=[[Scalable honeycomb top contact to increase the light absorption and reduce the series resistance of thin film solar cells]]|[[Scalable honeycomb top contact to increase the light absorption and reduce the series resistance of thin film solar cells]] | ||
File:3dtruss.png|[[Mechanical properties of 3-D printed truss-like lattice biopolymer non-stochastic structures for sandwich panels with natural fibre composite skins]] | File:Microwavetio2.jpg|link=[[Effect of microwave power irradiation on TiO2 nano-structures and binder free paste screen printed dye sensitized solar cells]]|[[Effect of microwave power irradiation on TiO2 nano-structures and binder free paste screen printed dye sensitized solar cells]] | ||
File:Death_By_Coal.png|[[Towards Quantifiable Metrics Warranting Industry-Wide Corporate Death Penalties]] | File:3dtruss.png|link=[[Mechanical properties of 3-D printed truss-like lattice biopolymer non-stochastic structures for sandwich panels with natural fibre composite skins]]|[[Mechanical properties of 3-D printed truss-like lattice biopolymer non-stochastic structures for sandwich panels with natural fibre composite skins]] | ||
File:dualmorph.jpg|[[Dual morphology titanium dioxide for dye sensitized solar cells]] | File:Death_By_Coal.png|link=[[Towards Quantifiable Metrics Warranting Industry-Wide Corporate Death Penalties]]|[[Towards Quantifiable Metrics Warranting Industry-Wide Corporate Death Penalties]] | ||
File:Mi-solar-map.png|[[Policies to Overcome Barriers for Renewable Energy Distributed Generation: A Case Study of Utility Structure and Regulatory Regimes in Michigan]] | File:dualmorph.jpg|link=[[Dual morphology titanium dioxide for dye sensitized solar cells]]|[[Dual morphology titanium dioxide for dye sensitized solar cells]] | ||
File:fwsun.jpg|[[Food without sun: Price and life-saving potential]] | File:Mi-solar-map.png|link=[[Policies to Overcome Barriers for Renewable Energy Distributed Generation: A Case Study of Utility Structure and Regulatory Regimes in Michigan]]|[[Policies to Overcome Barriers for Renewable Energy Distributed Generation: A Case Study of Utility Structure and Regulatory Regimes in Michigan]] | ||
File:usolarpopden.jpg|[[Could 79 People Solarize the U.S. Electric Grid?]] | File:fwsun.jpg|link=[[Food without sun: Price and life-saving potential]]|[[Food without sun: Price and life-saving potential]] | ||
File:kayak3dp.jpg|[[Green Fab Lab Applications of Large-Area Waste Polymer-based Additive Manufacturing]] | File:usolarpopden.jpg|link=[[Could 79 People Solarize the U.S. Electric Grid?]]|[[Could 79 People Solarize the U.S. Electric Grid?]] | ||
File:Charm-mtu.png|[[Preliminary Automated Determination of Edibility of Alternative Foods: Non-Targeted Screening for Toxins in Red Maple Leaf Concentrate]] | File:kayak3dp.jpg|link=[[Green Fab Lab Applications of Large-Area Waste Polymer-based Additive Manufacturing]]|[[Green Fab Lab Applications of Large-Area Waste Polymer-based Additive Manufacturing]] | ||
File:Plasticscircleecon.png|[[Systems Analysis for PET and Olefin Polymers in a Circular Economy]] | File:Charm-mtu.png|link=[[Preliminary Automated Determination of Edibility of Alternative Foods: Non-Targeted Screening for Toxins in Red Maple Leaf Concentrate]]|[[Preliminary Automated Determination of Edibility of Alternative Foods: Non-Targeted Screening for Toxins in Red Maple Leaf Concentrate]] | ||
File:Deepblacksi.png|[[Influence of metal assisted chemical etching time period on mesoporous structure in as-cut upgraded metallurgical grade silicon for solar cell application]] | File:Plasticscircleecon.png|link=[[Systems Analysis for PET and Olefin Polymers in a Circular Economy]]|[[Systems Analysis for PET and Olefin Polymers in a Circular Economy]] | ||
File:Centrifuge.jpg|[[Open Source Completely 3-D Printable Centrifuge]] | File:Deepblacksi.png|link=[[Influence of metal assisted chemical etching time period on mesoporous structure in as-cut upgraded metallurgical grade silicon for solar cell application]]|[[Influence of metal assisted chemical etching time period on mesoporous structure in as-cut upgraded metallurgical grade silicon for solar cell application]] | ||
File:Pcgigabotx.png|[[Mechanical Properties and Applications of Recycled Polycarbonate Particle Material Extrusion-Based Additive Manufacturing]] | File:Centrifuge.jpg|link=[[Open Source Completely 3-D Printable Centrifuge]]|[[Open Source Completely 3-D Printable Centrifuge]] | ||
File:Uvextrude3dp.png|[[Mechanical Properties of Ultraviolet-Assisted Paste Extrusion and Postextrusion Ultraviolet-Curing of Three-Dimensional Printed Biocomposites]] | File:Pcgigabotx.png|link=[[Mechanical Properties and Applications of Recycled Polycarbonate Particle Material Extrusion-Based Additive Manufacturing]]|[[Mechanical Properties and Applications of Recycled Polycarbonate Particle Material Extrusion-Based Additive Manufacturing]] | ||
File:Nigeria-solar.jpg|[[Economic viability of captive off-grid solar photovoltaic and diesel hybrid energy systems for the Nigerian private sector]] | File:Uvextrude3dp.png|link=[[Mechanical Properties of Ultraviolet-Assisted Paste Extrusion and Postextrusion Ultraviolet-Curing of Three-Dimensional Printed Biocomposites]]|[[Mechanical Properties of Ultraviolet-Assisted Paste Extrusion and Postextrusion Ultraviolet-Curing of Three-Dimensional Printed Biocomposites]] | ||
File:Bld-asst-III-10-apetsiuk.jpg|[[Low-cost open source ultrasound-sensing based navigational support for visually impaired]] | File:Nigeria-solar.jpg|link=[[Economic viability of captive off-grid solar photovoltaic and diesel hybrid energy systems for the Nigerian private sector]]|[[Economic viability of captive off-grid solar photovoltaic and diesel hybrid energy systems for the Nigerian private sector]] | ||
File:Ystruder.jpg|[[Ystruder: open source multifunction extruder with sensing and monitoring capabilities]] | File:Bld-asst-III-10-apetsiuk.jpg|link=[[Low-cost open source ultrasound-sensing based navigational support for visually impaired]]|[[Low-cost open source ultrasound-sensing based navigational support for visually impaired]] | ||
File:Osgran.png|[[Open Source Waste Plastic Granulator]] | File:Ystruder.jpg|link=[[Ystruder: open source multifunction extruder with sensing and monitoring capabilities]]|[[Ystruder: open source multifunction extruder with sensing and monitoring capabilities]] | ||
File: | File:Osgran.png|link=[[Open Source Waste Plastic Granulator]]|[[Open Source Waste Plastic Granulator]] | ||
File:ctscan.png|[[Expanded microchannel heat exchanger: Non-destructive evaluation]] | File:3-D_Printed_Air-Bearing-Based_Attitude_Simulator.gif|link=[[Design and Testing of a Low-Cost, Open Source, 3-D Printed Air-Bearing-Based Attitude Simulator for CubeSat Satellites]]|[[Design and Testing of a Low-Cost, Open Source, 3-D Printed Air-Bearing-Based Attitude Simulator for CubeSat Satellites]] | ||
File:Frame-v-frameless.png|[[Differences in Snow Shedding in Photovoltaic Systems with Framed and Frameless Modules]] | File:ctscan.png|link=[[Expanded microchannel heat exchanger: Non-destructive evaluation]]|[[Expanded microchannel heat exchanger: Non-destructive evaluation]] | ||
File:Bifacials-snow.png|[[Performance of Bifacial Photovoltaic Modules on a Dual-Axis Tracker in a High-Latitude, High-Albedo Environment]] | File:Frame-v-frameless.png|link=[[Differences in Snow Shedding in Photovoltaic Systems with Framed and Frameless Modules]]|[[Differences in Snow Shedding in Photovoltaic Systems with Framed and Frameless Modules]] | ||
File:Bifacials-snow.png|link=[[Performance of Bifacial Photovoltaic Modules on a Dual-Axis Tracker in a High-Latitude, High-Albedo Environment]]|[[Performance of Bifacial Photovoltaic Modules on a Dual-Axis Tracker in a High-Latitude, High-Albedo Environment]] | |||
</gallery> | </gallery> | ||
==2019 Popular Audience Articles== | ==2019 Popular Audience Articles== | ||
<gallery mode= | |||
<gallery heights="130" mode="packed"> | |||
File:Gigabotxonfox.png|[[MOST News Coverage 2019]] | File:Gigabotxonfox.png|[[MOST News Coverage 2019]] | ||
File:Wikiversity-logo.png|[https://en.wikiversity.org/wiki/Open_Source_3-D_Printing Open Source 3-D Printing] | File:Wikiversity-logo.png|[https://en.wikiversity.org/wiki/Open_Source_3-D_Printing Open Source 3-D Printing] | ||
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</gallery> | </gallery> | ||
== 2018 Completed Projects & Publications == | ==2018 Completed Projects & Publications== | ||
<gallery | |||
File:Recycledabs.jpg|[[Tightening the loop on the circular economy: Coupled distributed recycling and manufacturing with recyclebot and RepRap 3-D printing]] | <gallery> | ||
File:decarbonboard.jpg|[[Decarbonizing the boardroom? Aligning electric utility executive compensation with climate change incentives]] | File:Recycledabs.jpg|link=[[Tightening the loop on the circular economy: Coupled distributed recycling and manufacturing with recyclebot and RepRap 3-D printing]]|[[Tightening the loop on the circular economy: Coupled distributed recycling and manufacturing with recyclebot and RepRap 3-D printing]] | ||
File:Osdesign.png|[[General Design Procedure for Free and Open-Source Hardware for Scientific Equipment]] | File:decarbonboard.jpg|link=[[Decarbonizing the boardroom? Aligning electric utility executive compensation with climate change incentives]]|[[Decarbonizing the boardroom? Aligning electric utility executive compensation with climate change incentives]] | ||
File:coseffective.jpg|[[Cost-effectiveness of interventions for alternate food in the United States to address agricultural catastrophes]] | File:Osdesign.png|link=[[General Design Procedure for Free and Open-Source Hardware for Scientific Equipment]]|[[General Design Procedure for Free and Open-Source Hardware for Scientific Equipment]] | ||
File:slotdie.jpg|[[Open-source parametric 3-D printed slot die system for thin film semiconductor processing]] | File:coseffective.jpg|link=[[Cost-effectiveness of interventions for alternate food in the United States to address agricultural catastrophes]][[Cost-effectiveness of interventions for alternate food in the United States to address agricultural catastrophes]]|[[Cost-effectiveness of interventions for alternate food in the United States to address agricultural catastrophes]][[Cost-effectiveness of interventions for alternate food in the United States to address agricultural catastrophes]] | ||
File:nosmoke-pv.jpg|[[Economic impact of substituting solar photovoltaic electric production for tobacco farming]] | File:slotdie.jpg|link=[[Open-source parametric 3-D printed slot die system for thin film semiconductor processing]]|[[Open-source parametric 3-D printed slot die system for thin film semiconductor processing]]|[[Open-source parametric 3-D printed slot die system for thin film semiconductor processing]]|[[Open-source parametric 3-D printed slot die system for thin film semiconductor processing]] | ||
File:Kijenzi.png|[[Development of a Resilient 3-D Printer for Humanitarian Crisis Response]] | File:nosmoke-pv.jpg|link=[[Economic impact of substituting solar photovoltaic electric production for tobacco farming]]|[[Economic impact of substituting solar photovoltaic electric production for tobacco farming]] | ||
File:Cncrparts-horseshoe.jpg|[[Applications of Open Source GMAW-Based Metal 3-D Printing]] | File:Kijenzi.png|link=[[Development of a Resilient 3-D Printer for Humanitarian Crisis Response]]|[[Development of a Resilient 3-D Printer for Humanitarian Crisis Response]] | ||
File:afmmicromorphanalysis.jpg|[[Micromorphology analysis of sputtered indium tin oxide fabricated with variable ambient combinations]] | File:Cncrparts-horseshoe.jpg|link=[[Applications of Open Source GMAW-Based Metal 3-D Printing]]|[[Applications of Open Source GMAW-Based Metal 3-D Printing]] | ||
File:bsi.png|[[Effects of silver catalyst concentration in metal assisted chemical etching of silicon]] | File:afmmicromorphanalysis.jpg|link=[[Micromorphology analysis of sputtered indium tin oxide fabricated with variable ambient combinations]]|[[Micromorphology analysis of sputtered indium tin oxide fabricated with variable ambient combinations]] | ||
File:mhi.jpg|[[Open-source 3-D Printing in Managing Humanitarian Innovation]] | File:bsi.png|link=[[Effects of silver catalyst concentration in metal assisted chemical etching of silicon]]|[[Effects of silver catalyst concentration in metal assisted chemical etching of silicon]] | ||
File:tco-zo.png|[[Properties of Al-Doped Zinc Oxide and In-Doped Zinc Oxide Bilayer Transparent Conducting Oxides for Solar Cell Applications]] | File:mhi.jpg|link=[[Open-source 3-D Printing in Managing Humanitarian Innovation]]|[[Open-source 3-D Printing in Managing Humanitarian Innovation]] | ||
File:SWP-hx-con.png|[[Design Optimization of Polymer Heat Exchanger for Automated Household-Scale Solar Water Pasteurizer]] | File:tco-zo.png|link=[[Properties of Al-Doped Zinc Oxide and In-Doped Zinc Oxide Bilayer Transparent Conducting Oxides for Solar Cell Applications]]|[[Properties of Al-Doped Zinc Oxide and In-Doped Zinc Oxide Bilayer Transparent Conducting Oxides for Solar Cell Applications]] | ||
File:cbr.jpg|[[Expanding the Consumer Bill of Rights for material ingredients]] | File:SWP-hx-con.png|link=[[Design Optimization of Polymer Heat Exchanger for Automated Household-Scale Solar Water Pasteurizer]]|[[Design Optimization of Polymer Heat Exchanger for Automated Household-Scale Solar Water Pasteurizer]] | ||
File:astmiandiv.jpg|[[Anisotropic mechanical property variance between ASTM D638-14 type I and type IV fused filament fabricated specimens]] | File:cbr.jpg|link=[[Expanding the Consumer Bill of Rights for material ingredients]]|[[Expanding the Consumer Bill of Rights for material ingredients]] | ||
File:fosslit.jpg|[[How to perform a literature review with free and open source software]] | File:astmiandiv.jpg|link=[[Anisotropic mechanical property variance between ASTM D638-14 type I and type IV fused filament fabricated specimens]]|[[Anisotropic mechanical property variance between ASTM D638-14 type I and type IV fused filament fabricated specimens]] | ||
File:desolar.jpg|[[Optimal Design of Thin-film Plasmonic Solar Cells using Differential Evolution Optimization Algorithms]] | File:fosslit.jpg|link=[[How to perform a literature review with free and open source software]]|[[How to perform a literature review with free and open source software]] | ||
File:recyclebotrep.png|[[RepRapable Recyclebot: Open source 3-D printable extruder for converting plastic to 3-D printing filament]] | File:desolar.jpg|link=[[Optimal Design of Thin-film Plasmonic Solar Cells using Differential Evolution Optimization Algorithms]]|[[Optimal Design of Thin-film Plasmonic Solar Cells using Differential Evolution Optimization Algorithms]] | ||
File:solar3dschem.png|[[Self-sufficiency of 3-D printers: utilizing stand-alone solar photovoltaic power systems]] | File:recyclebotrep.png|link=[[RepRapable Recyclebot: Open source 3-D printable extruder for converting plastic to 3-D printing filament]]|[[RepRapable Recyclebot: Open source 3-D printable extruder for converting plastic to 3-D printing filament]] | ||
File:nukenumbers.png|[[A National Pragmatic Safety Limit for Nuclear Weapon Quantities]] | File:solar3dschem.png|link=[[Self-sufficiency of 3-D printers: utilizing stand-alone solar photovoltaic power systems]]|[[Self-sufficiency of 3-D printers: utilizing stand-alone solar photovoltaic power systems]] | ||
File:openresearchcontract.png|[[Sponsored Libre Research Agreements to Create Free and Open Source Software and Hardware]] | File:nukenumbers.png|link=[[A National Pragmatic Safety Limit for Nuclear Weapon Quantities]]|[[A National Pragmatic Safety Limit for Nuclear Weapon Quantities]] | ||
File:chemcompat.png|[[Chemical Compatibility of Fused Filament Fabrication-based 3-D Printed Components with Solutions Commonly Used in Semiconductor Wet Processing]] | File:openresearchcontract.png|link=[[Sponsored Libre Research Agreements to Create Free and Open Source Software and Hardware]]|[[Sponsored Libre Research Agreements to Create Free and Open Source Software and Hardware]] | ||
File:gigarecycle.png|[[Fused Particle Fabrication 3-D Printing: Recycled Materials’ Optimization and Mechanical Properties]] | File:chemcompat.png|link=[[Chemical Compatibility of Fused Filament Fabrication-based 3-D Printed Components with Solutions Commonly Used in Semiconductor Wet Processing]]|[[Chemical Compatibility of Fused Filament Fabrication-based 3-D Printed Components with Solutions Commonly Used in Semiconductor Wet Processing]] | ||
File:Spheremic.JPG|[[Modular Design for Spherical Microphone Arrays]] | File:gigarecycle.png|link=[[Fused Particle Fabrication 3-D Printing: Recycled Materials’ Optimization and Mechanical Properties]]|[[Fused Particle Fabrication 3-D Printing: Recycled Materials’ Optimization and Mechanical Properties]] | ||
File:bsieconomics.png|[[Economic Advantages of Dry-Etched Black Silicon in Passivated Emitter Rear Cell (PERC) Photovoltaic Manufacturing]] | File:Spheremic.JPG|link=[[Modular Design for Spherical Microphone Arrays]]|[[Modular Design for Spherical Microphone Arrays]] | ||
File:OScircuitmill.png|[[Belt-Driven Open Source Circuit Mill Using Low-Cost 3-D Printer Components]] | File:bsieconomics.png|link=[[Economic Advantages of Dry-Etched Black Silicon in Passivated Emitter Rear Cell (PERC) Photovoltaic Manufacturing]]|[[Economic Advantages of Dry-Etched Black Silicon in Passivated Emitter Rear Cell (PERC) Photovoltaic Manufacturing]] | ||
File:ccs-vs-pv.png|[[Coal with Carbon Capture and Sequestration is not as Land Use Efficient as Solar Photovoltaic Technology for Climate Neutral Electricity Production]] | File:OScircuitmill.png|link=[[Belt-Driven Open Source Circuit Mill Using Low-Cost 3-D Printer Components]]|[[Belt-Driven Open Source Circuit Mill Using Low-Cost 3-D Printer Components]] | ||
File:3dpdeer.jpg|[[Prospects of applying 3-D printing to economics of remote communities: Reindeer herder case]] | File:ccs-vs-pv.png|link=[[Coal with Carbon Capture and Sequestration is not as Land Use Efficient as Solar Photovoltaic Technology for Climate Neutral Electricity Production]]|[[Coal with Carbon Capture and Sequestration is not as Land Use Efficient as Solar Photovoltaic Technology for Climate Neutral Electricity Production]] | ||
File:probes.jpg|[[Approaches to Open Source 3-D Printable Probe Positioners and Micromanipulators for Probe Stations]] | File:3dpdeer.jpg|link=[[Prospects of applying 3-D printing to economics of remote communities: Reindeer herder case]]|[[Prospects of applying 3-D printing to economics of remote communities: Reindeer herder case]] | ||
File:Osenergymon.jpg|[[Open Source Low-Cost Power Monitoring System]] | File:probes.jpg|link=[[Approaches to Open Source 3-D Printable Probe Positioners and Micromanipulators for Probe Stations]]|[[Approaches to Open Source 3-D Printable Probe Positioners and Micromanipulators for Probe Stations]] | ||
File:Bacterianutrients.JPG|[[Micronutrient Availability in Alternative Foods During Agricultural Catastrophes]] | File:Osenergymon.jpg|link=[[Open Source Low-Cost Power Monitoring System]]|[[Open Source Low-Cost Power Monitoring System]] | ||
File:woodprint.png|[[Wood Furniture Waste-Based Recycled 3-D Printing Filament]] | File:Bacterianutrients.JPG|link=[[Micronutrient Availability in Alternative Foods During Agricultural Catastrophes]]|[[Micronutrient Availability in Alternative Foods During Agricultural Catastrophes]] | ||
File:nanoalumina.png|[[Chemical Synthesis and Characterization of Nano Alumina, Nano Composite of Carbon–Alumina and Their Comparative Studies]] | File:woodprint.png|link=[[Wood Furniture Waste-Based Recycled 3-D Printing Filament]]|[[Wood Furniture Waste-Based Recycled 3-D Printing Filament]] | ||
File:OSpellets.JPG|[[3-D Printable Polymer Pelletizer Chopper for Fused Granular Fabrication-Based Additive Manufacturing]] | File:nanoalumina.png|link=[[Chemical Synthesis and Characterization of Nano Alumina, Nano Composite of Carbon–Alumina and Their Comparative Studies]]|[[Chemical Synthesis and Characterization of Nano Alumina, Nano Composite of Carbon–Alumina and Their Comparative Studies]] | ||
File:hotdeform.jpg|[[Improved model and experimental validation of deformation in fused filament fabrication of polylactic acid]] | File:OSpellets.JPG|link=[[3-D Printable Polymer Pelletizer Chopper for Fused Granular Fabrication-Based Additive Manufacturing]]|[[3-D Printable Polymer Pelletizer Chopper for Fused Granular Fabrication-Based Additive Manufacturing]] | ||
File:osgimbal.jpg|[[3-D printable open source dual axis gimbal system for optoelectronic measurements]] | File:hotdeform.jpg|link=[[Improved model and experimental validation of deformation in fused filament fabrication of polylactic acid]]|[[Improved model and experimental validation of deformation in fused filament fabrication of polylactic acid]] | ||
File:adaptive-aid.png|[[Economic Potential for Distributed Manufacturing of Adaptive Aids for Arthritis Patients in the U.S.]] | File:osgimbal.jpg|link=[[3-D printable open source dual axis gimbal system for optoelectronic measurements]]|[[3-D printable open source dual axis gimbal system for optoelectronic measurements]] | ||
File:adaptive-aid.png|link=[[Economic Potential for Distributed Manufacturing of Adaptive Aids for Arthritis Patients in the U.S.]]|[[Economic Potential for Distributed Manufacturing of Adaptive Aids for Arthritis Patients in the U.S.]] | |||
</gallery> | </gallery> | ||
==2018 Popular Audience Articles== | ==2018 Popular Audience Articles== | ||
<gallery mode= | |||
<gallery heights="130" mode="packed"> | |||
File:kaitparker.png|[[MOST News Coverage 2018]] | File:kaitparker.png|[[MOST News Coverage 2018]] | ||
File:reflectorpv.jpg|[https://theconversation.com/can-mirrors-boost-solar-panel-output-and-help-overcome-trumps-tariffs-90663 Can mirrors boost solar panel output - and help overcome Trump’s tariffs?] | File:reflectorpv.jpg|[https://theconversation.com/can-mirrors-boost-solar-panel-output-and-help-overcome-trumps-tariffs-90663 Can mirrors boost solar panel output - and help overcome Trump’s tariffs?] | ||
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File:redhatlogo.jpg|[https://www.redhat.com/en/about/press-releases/red-hat-honors-instructors-who-champion-open-source-education Red Hat Honors Instructors Who Champion Open Source Education] | File:redhatlogo.jpg|[https://www.redhat.com/en/about/press-releases/red-hat-honors-instructors-who-champion-open-source-education Red Hat Honors Instructors Who Champion Open Source Education] | ||
File:OSAT-yurt-pic-300x226.png|[http://citizenscience.org/2018/03/23/opportunities-in-sustainable-development-for-innovators-in-the-citizen-science-and-the-open-source-community/ Opportunities in Sustainable Development and Open Source Technology ] | File:OSAT-yurt-pic-300x226.png|[http://citizenscience.org/2018/03/23/opportunities-in-sustainable-development-for-innovators-in-the-citizen-science-and-the-open-source-community/ Opportunities in Sustainable Development and Open Source Technology ] | ||
File:ultimaker2go.jpg|[https://ultimaker.com/en/ | File:ultimaker2go.jpg|[https://web.archive.org/web/20210122032608/https://support.ultimaker.com/hc/en-us/sections/360003548519-Ultimaker-2-Go How to Install a Heated Bed and Printhead Heater Cartridge for the Ultimaker 2 Go] | ||
File:cornsheller2.jpg|[https://gallery.mailchimp.com/b828011d5efa3a4ac7941e0f4/files/f80f7abb-7ef6-4a24-8ddb-77e536a5067b/Chapter_4_min.pdf How to make a 3-D printed corn sheller], [https://thisismold.com/object/tool/how-to-make-a-3d-printed-corn-sheller This is Mold] | File:cornsheller2.jpg|[https://gallery.mailchimp.com/b828011d5efa3a4ac7941e0f4/files/f80f7abb-7ef6-4a24-8ddb-77e536a5067b/Chapter_4_min.pdf How to make a 3-D printed corn sheller], [https://thisismold.com/object/tool/how-to-make-a-3d-printed-corn-sheller This is Mold] | ||
File:googlescholarosh.png|[https://opensource.com/article/18/4/mainstream-academia-embraces-open-source-hardware Mainstream academia embraces open source hardware] | File:googlescholarosh.png|[https://opensource.com/article/18/4/mainstream-academia-embraces-open-source-hardware Mainstream academia embraces open source hardware] | ||
File:scholarship.jpg|[https://opensource.com/article/18/4/open-source-scholarship-university How to set up an open source scholarship at your university] | File:scholarship.jpg|[https://opensource.com/article/18/4/open-source-scholarship-university How to set up an open source scholarship at your university] | ||
File:digitallit.png|[https://opensource.com/article/18/6/open-source-literature-review-tools 7 open source tools to make literature reviews easy] | File:digitallit.png|[https://opensource.com/article/18/6/open-source-literature-review-tools 7 open source tools to make literature reviews easy] | ||
File:omenalibrary.jpg|[https://ultimaker.com/en/blog/52019-3d-printers-in-the-public-library-finland-ahead-of-the-curve 3D printers in the public library- Finland ahead of the curve] | File:omenalibrary.jpg|[https://web.archive.org/web/20210308051630/https://ultimaker.com/en/blog/52019-3d-printers-in-the-public-library-finland-ahead-of-the-curve// 3D printers in the public library- Finland ahead of the curve] | ||
File:coalkills.jpg|[http://buzzflash.com/commentary/how-many-americans-will-die-because-of-trump-s-solar-tariffs How Many Americans Will Die Because of Trump's Solar Tariffs?] | File:coalkills.jpg|[http://buzzflash.com/commentary/how-many-americans-will-die-because-of-trump-s-solar-tariffs How Many Americans Will Die Because of Trump's Solar Tariffs?] | ||
File:3 FInnish math.jpg|[https://medium.com/@ProfPearce/what-america-can-learn-from-finlands-education-system-we-should-respect-teachers-and-take-only-7c079edf0b2a What America Can Learn From Finland’s Education System: We Should Respect Teachers and Take Only the Best] | File:3 FInnish math.jpg|[https://medium.com/@ProfPearce/what-america-can-learn-from-finlands-education-system-we-should-respect-teachers-and-take-only-7c079edf0b2a What America Can Learn From Finland’s Education System: We Should Respect Teachers and Take Only the Best] | ||
File:pizzabot.jpg|[https://medium.com/@ProfPearce/what-america-can-learn-from-finlands-education-system-part-2-embrace-international-students-and-4b38fe581fd9 What America Can Learn From Finland’s Education System Part 2: Embrace International Students and Pursue Graduate School for a Secure Future] [http://www.mininggazette.com/news/features/2018/06/value-of-education-graduate-students-make-most-of-opportunities-in-finland/ Mining Gazette] | File:pizzabot.jpg|[https://medium.com/@ProfPearce/what-america-can-learn-from-finlands-education-system-part-2-embrace-international-students-and-4b38fe581fd9 What America Can Learn From Finland’s Education System Part 2: Embrace International Students and Pursue Graduate School for a Secure Future] [http://web.archive.org/web/20190422001515/http://www.mininggazette.com:80/news/features/2018/06/value-of-education-graduate-students-make-most-of-opportunities-in-finland/ Mining Gazette] | ||
File:pedal.png|[https://ultimaker.com/en/blog/52513-tricks-for-telling-if-your-3d-print-is-good-enough-for-your-bike Tricks for telling if your 3D print is good enough for your bike] | File:pedal.png|[http://web.archive.org/web/20180713230417/https://ultimaker.com/en/blog/52513-tricks-for-telling-if-your-3d-print-is-good-enough-for-your-bike Tricks for telling if your 3D print is good enough for your bike] | ||
File:walmart.jpg|[https://theconversation.com/trade-wars-will-boost-digital-manufacturing-at-consumers-own-homes-with-personal-3d-printers-99823 Trade wars will boost digital manufacturing – at consumers’ own homes with personal 3D printers] | File:walmart.jpg|[https://theconversation.com/trade-wars-will-boost-digital-manufacturing-at-consumers-own-homes-with-personal-3d-printers-99823 Trade wars will boost digital manufacturing – at consumers’ own homes with personal 3D printers] | ||
File:Handshake business contract partner.png|[https://opensource.com/article/18/7/open-source-research-agreement New research agreement opens up for universities and companies ] | File:Handshake business contract partner.png|[https://opensource.com/article/18/7/open-source-research-agreement New research agreement opens up for universities and companies ] | ||
File:coalprop.jpg|[https://theconversation.com/an-alternative-to-propping-up-coal-power-plants-retrain-workers-for-solar-101961 An alternative to propping up coal power plants: Retrain workers for solar] | File:coalprop.jpg|[https://theconversation.com/an-alternative-to-propping-up-coal-power-plants-retrain-workers-for-solar-101961 An alternative to propping up coal power plants: Retrain workers for solar] | ||
File:oshexamples.jpg|[https://ultimaker.com/en/ | File:oshexamples.jpg|[https://web.archive.org/web/20210122032608/https://support.ultimaker.com/hc/en-us/sections/360003548519-Ultimaker-2-Go 3D printing scientific open hardware] | ||
File:Chem3dpfindings.jpg|[https://www.cleanroomtechnology.com/news/article_page/3Dprinted_tools_welcome/148155 3D-printed tools welcome] | File:Chem3dpfindings.jpg|[https://www.cleanroomtechnology.com/news/article_page/3Dprinted_tools_welcome/148155 3D-printed tools welcome] | ||
File:Osboarduv.jpg|[https://theconversation.com/open-source-hardware-could-defend-against-the-next-generation-of-hacking-104473 Open-source hardware could defend against the next generation of hacking] | File:Osboarduv.jpg|[https://theconversation.com/open-source-hardware-could-defend-against-the-next-generation-of-hacking-104473 Open-source hardware could defend against the next generation of hacking] | ||
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==2017 Completed Projects & Publications== | ==2017 Completed Projects & Publications== | ||
<gallery | |||
File:xwirerack.png|[[3-D Printing Solar Photovoltaic Racking in Developing World]] | <gallery> | ||
File:hxpol.png|[[Experimental Characterization of Heat Transfer in an Additively Manufactured Polymer Heat Exchanger]] | File:xwirerack.png|link=[[3-D Printing Solar Photovoltaic Racking in Developing World]]|[[3-D Printing Solar Photovoltaic Racking in Developing World]] | ||
File:hxpol.png|link=[[Experimental Characterization of Heat Transfer in an Additively Manufactured Polymer Heat Exchanger]]|[[Experimental Characterization of Heat Transfer in an Additively Manufactured Polymer Heat Exchanger]] | |||
File:Foodmake.jpg|[[Feeding Everyone if the Sun is Obscured and Industry is Disabled]] | File:pluginpv.png|link=[[U.S. market for solar photovoltaic plug-and-play systems]]|[[U.S. market for solar photovoltaic plug-and-play systems]] | ||
File:Foodmake.jpg|link=[[Feeding Everyone if the Sun is Obscured and Industry is Disabled]]|[[Feeding Everyone if the Sun is Obscured and Industry is Disabled]] | |||
File:emily-mini.jpg|[[Emergence of Home Manufacturing in the Developed World: Return on Investment for Open-Source 3-D Printers]] | File:Os4pp.png|link=[[Open-Source Automated Mapping Four-Point Probe]]|[[Open-Source Automated Mapping Four-Point Probe]] | ||
File:emily-mini.jpg|link=[[Emergence of Home Manufacturing in the Developed World: Return on Investment for Open-Source 3-D Printers]]|[[Emergence of Home Manufacturing in the Developed World: Return on Investment for Open-Source 3-D Printers]] | |||
File: | File:TensileStrength.gif|link=[[Tensile Strength of Commercial Polymer Materials for Fused Filament Fabrication 3-D Printing]]|[[Tensile Strength of Commercial Polymer Materials for Fused Filament Fabrication 3-D Printing]] | ||
File:Osbiz.jpg|link=[[Emerging Business Models for Open Source Hardware]]|[[Emerging Business Models for Open Source Hardware]] | |||
File: | File:osrot.jpg|link=[[Open Source Laboratory Sample Rotator Mixer and Shaker]]|[[Open Source Laboratory Sample Rotator Mixer and Shaker]] | ||
File: | File:Sensorica-pv.png|link=[[Democratising design in scientific innovation: application of an open value network to open source hardware design]]|[[Democratising design in scientific innovation: application of an open value network to open source hardware design]] | ||
File: | File:Solarpv3p.png|link=[[Open Source 3-D Printers: An Appropriate Technology for Developing Communities]]|[[Open Source 3-D Printers: An Appropriate Technology for Developing Communities]] | ||
File:Pv-security.jpg|link=[[U.S. strategic solar photovoltaic-powered microgrid deployment for enhanced national security]]|[[U.S. strategic solar photovoltaic-powered microgrid deployment for enhanced national security]] | |||
File: | File:Metalpla2.jpg|link=[[Thermal properties of 3-D printed polylactic acid-metal composites]]|[[Thermal properties of 3-D printed polylactic acid-metal composites]] | ||
File: | File:Ca-nb-pv.jpg|link=[[Power and energy potential of mass-scale photovoltaic noise barrier deployment- A case study for the U.S.]]|[[Power and energy potential of mass-scale photovoltaic noise barrier deployment- A case study for the U.S.]] | ||
File: | File:Aquapv.jpg|link=[[Aquavoltaics: Synergies for dual use of water area for solar photovoltaic electricity generation and aquaculture]]|[[Aquavoltaics: Synergies for dual use of water area for solar photovoltaic electricity generation and aquaculture]] | ||
File: | File:osbikepedal.png|link=[[Viability of Distributed Manufacturing of Bicycle Components with 3-D Printing: CEN Standardized Polylactic Acid Pedal Testing]]|[[Viability of Distributed Manufacturing of Bicycle Components with 3-D Printing: CEN Standardized Polylactic Acid Pedal Testing]] | ||
File:Coaldeath.jpg|link=[[Potential lives saved by replacing coal with solar photovoltaic electricity production in the U.S.]]|[[Potential lives saved by replacing coal with solar photovoltaic electricity production in the U.S.]] | |||
File: | File:plasmonics.png|link=[[Enhancement of hydrogenated amorphous silicon solar cells with front-surface hexagonal plasmonic arrays from nanoscale lithography]]|[[Enhancement of hydrogenated amorphous silicon solar cells with front-surface hexagonal plasmonic arrays from nanoscale lithography]] | ||
File:Vrecyclebotcrop.jpg|link=[[Energy Payback Time of a Solar Photovoltaic Powered Waste Plastic Recyclebot System]]|[[Energy Payback Time of a Solar Photovoltaic Powered Waste Plastic Recyclebot System]] | |||
File:walmart-solar.jpg|link=[[Technical Solar Photovoltaic Potential of Scaled Parking Lot Canopies- A Case Study of Walmart U.S.A.]]|[[Technical Solar Photovoltaic Potential of Scaled Parking Lot Canopies- A Case Study of Walmart U.S.A.]] | |||
File: | File:gigahx.jpg|link=[[Open Source Multi-Head 3D Printer for Polymer-Metal Composite Component Manufacturing]]|[[Open Source Multi-Head 3D Printer for Polymer-Metal Composite Component Manufacturing]] | ||
File:freeoscad.png|link=[[Free and Open Source 3-D Model Customizer for Websites to Democratize Design with OpenSCAD]]|[[Free and Open Source 3-D Model Customizer for Websites to Democratize Design with OpenSCAD]] | |||
File: | File:360siranee.jpg|link=[[Three Hundred and Sixty Degree Real-Time Monitoring of 3-D Printing Using Computer Analysis of Two Camera Views]]|[[Three Hundred and Sixty Degree Real-Time Monitoring of 3-D Printing Using Computer Analysis of Two Camera Views]] | ||
File: | File:zno-kill.png|link=[[Inhibition of growth of S. epidermidis by hydrothermally synthesized ZnO nanoplates]]|[[Inhibition of growth of S. epidermidis by hydrothermally synthesized ZnO nanoplates]] | ||
File:3dptoys.jpg|link=[[Impact of DIY Home Manufacturing with 3D Printing on the Toy and Game Market]]|[[Impact of DIY Home Manufacturing with 3D Printing on the Toy and Game Market]] | |||
File: | File:airportpv.jpg|link=[[General Design Procedures for Airport-Based Solar Photovoltaic Systems]]|[[General Design Procedures for Airport-Based Solar Photovoltaic Systems]] | ||
File:Muac.jpg|link=[[3-D printing open-source click-MUAC bands for identification of malnutrition]]|[[3-D printing open-source click-MUAC bands for identification of malnutrition]] | |||
File: | File:stoptimewaste.jpg|link=[[Defense for Covert Administrative Techniques for Neutralizing American Highly Qualified Personnel]]|[[Defense for Covert Administrative Techniques for Neutralizing American Highly Qualified Personnel]] | ||
File: | File:osatoptics.jpg|link=[[Open source 3D printers: an appropriate technology for building low cost optics labs for the developing communities]]|[[Open source 3D printers: an appropriate technology for building low cost optics labs for the developing communities]] | ||
File: | File:factors3dpm.gif|link=[[Factors effecting real-time optical monitoring of fused filament 3D printing]]|[[Factors effecting real-time optical monitoring of fused filament 3D printing]] | ||
File:nanolith.jpg|link=[[Fabricating Ordered 2-D Nano-Structured Arrays Using Nanosphere Lithography]]|[[Fabricating Ordered 2-D Nano-Structured Arrays Using Nanosphere Lithography]] | |||
File: | File:3-D_Printed_Nutating_Mixer.gif|link=[[Open Source 3-D Printed Nutating Mixer]]|[[Open Source 3-D Printed Nutating Mixer]] | ||
File:grapes-agriv.jpg|link=[[Agrivoltaic potential on grape farms in India]]|[[Agrivoltaic potential on grape farms in India]] | |||
File: | File:Porous-si.png|link=[[Micro-Raman Scattering of Nanoscale Silicon in Amorphous and Porous Silicon]]|[[Micro-Raman Scattering of Nanoscale Silicon in Amorphous and Porous Silicon]] | ||
File:Ambersi.png|link=[[Hypoeutectic Aluminum–Silicon Alloy Development for GMAW-Based 3-D Printing Using Wedge Castings]]|[[Hypoeutectic Aluminum–Silicon Alloy Development for GMAW-Based 3-D Printing Using Wedge Castings]] | |||
File:agglom.png|link=[[Ambiance-dependent Agglomeration and Surface-enhanced Raman Spectroscopy Response of Self-assembled Silver Nano-particles for Plasmonic Photovoltaic Devices]]|[[Ambiance-dependent Agglomeration and Surface-enhanced Raman Spectroscopy Response of Self-assembled Silver Nano-particles for Plasmonic Photovoltaic Devices]] | |||
File:ni-zno.jpg|link=[[Synthetic Method Dependent Physicochemical Properties and Electrochemical Performance of Ni-Doped ZnO]]|[[Synthetic Method Dependent Physicochemical Properties and Electrochemical Performance of Ni-Doped ZnO]] | |||
File: | File:curametal.jpg|link=[[Slicer and process improvements for open-source GMAW-based metal 3-D printing]]|[[Slicer and process improvements for open-source GMAW-based metal 3-D printing]] | ||
File:flexlulz.jpg|link=[[Distributed Manufacturing of Flexible Products- Technical Feasibility and Economic Viability]]|[[Distributed Manufacturing of Flexible Products- Technical Feasibility and Economic Viability]] | |||
File: | File:badnetmeterdata.jpg|link=[[Examining interconnection and net metering policy for distributed generation in the United States]]|[[Examining interconnection and net metering policy for distributed generation in the United States]] | ||
File:diybipv.jpg|link=[[Design of Post-Consumer Modification of Standard Solar Modules to Form Large-Area Building-Integrated Photovoltaic Roof Slates]]|[[Design of Post-Consumer Modification of Standard Solar Modules to Form Large-Area Building-Integrated Photovoltaic Roof Slates]] | |||
File:medosh.png|link=[[Maximizing Returns for Public Funding of Medical Research with Open-source Hardware]]|[[Maximizing Returns for Public Funding of Medical Research with Open-source Hardware]] | |||
</gallery> | </gallery> | ||
==2017 Popular Audience Articles== | ==2017 Popular Audience Articles== | ||
<gallery mode= | |||
<gallery heights="130" mode="packed"> | |||
File:news2017.png|[[MOST News Coverage 2017]] | File:news2017.png|[[MOST News Coverage 2017]] | ||
File:Bus-big-data.png|[https://opensource.com/article/17/1/making-us-patent-system-useful-again Search this database for inactive patents that are now in the public domain] | File:Bus-big-data.png|[https://opensource.com/article/17/1/making-us-patent-system-useful-again Search this database for inactive patents that are now in the public domain] | ||
Line 249: | Line 309: | ||
File:Isis_anchalee.jpg|[https://www.abqjournal.com/972235/smart-immigrants-literally-are-making-america-great.html Smart immigrants literally are making America great] | File:Isis_anchalee.jpg|[https://www.abqjournal.com/972235/smart-immigrants-literally-are-making-america-great.html Smart immigrants literally are making America great] | ||
File:Joshua-Pearce-fixing-a-RepRap-3dprinter-906x906.png|[https://3dprintingindustry.com/news/3d-printing-next-five-years-prof-joshua-pearce-108554/ 3D Printing The Next Five Years by Prof. Joshua Pearce] | File:Joshua-Pearce-fixing-a-RepRap-3dprinter-906x906.png|[https://3dprintingindustry.com/news/3d-printing-next-five-years-prof-joshua-pearce-108554/ 3D Printing The Next Five Years by Prof. Joshua Pearce] | ||
File:Ultimaker-Original-Compare.png|[https://ultimaker.com/en/ | File:Ultimaker-Original-Compare.png|[https://web.archive.org/web/20210122032608/https://support.ultimaker.com/hc/en-us/sections/360003548519-Ultimaker-2-Go Three reasons for open source tech in your 3D printing classroom] | ||
File:neci.png|[https://opensource.com/article/17/4/open-hardware-nitrate-testing-photometer Clones welcome in scientific hardware] | File:neci.png|[https://opensource.com/article/17/4/open-hardware-nitrate-testing-photometer Clones welcome in scientific hardware] | ||
File:hardwarex.jpg|[http://www.materialstoday.com/amorphous/news/first-issue-of-hardwarex-published/ Open source hardware: first issue of HardwareX now available (Materials Today)] | File:hardwarex.jpg|[http://www.materialstoday.com/amorphous/news/first-issue-of-hardwarex-published/ Open source hardware: first issue of HardwareX now available (Materials Today)] | ||
Line 259: | Line 319: | ||
File:Save-the-world-game2.jpg|[https://opensource.com/article/17/7/save-planet-board-game How an open source board game is saving the planet] | File:Save-the-world-game2.jpg|[https://opensource.com/article/17/7/save-planet-board-game How an open source board game is saving the planet] | ||
File:Pitfall-trap-images.jpg|[https://www.elsevier.com/connect/hardwarex-journal-reveals-the-equipment-behind-the-science HardwareX journal reveals the equipment behind the science] | File:Pitfall-trap-images.jpg|[https://www.elsevier.com/connect/hardwarex-journal-reveals-the-equipment-behind-the-science HardwareX journal reveals the equipment behind the science] | ||
File:File-20170908-32313-zwtsd.jpg|[https://theconversation.com/how-solar-power-can-protect-the-us-military-from-threats-to-the-electric-grid-83698 How solar power can protect the US military from threats to the electric grid] ([http://www.salon.com/2017/09/17/how-solar-power-can-protect-the-us-military-from-threats-to-the-electric-grid_partner/ Salon], [http://www.latimes.com/sns-how-solar-power-can-protect-the-us-military-from-threats-to-the-electric-grid-83698-20170914-story.html LA Times], [http://www.chicagotribune.com/sns-how-solar-power-can-protect-the-us-military-from-threats-to-the-electric-grid-83698-20170914-story.html Chicago Tribune], [http://www.sfgate.com/news/article/How-solar-power-can-protect-the-US-military-from-12196233.php San Francisco Chronicle], [http://www.businessinsider.com/how-solar-power-can-protect-the-us-military-2017-9 Business Insider]) | File:File-20170908-32313-zwtsd.jpg|[https://theconversation.com/how-solar-power-can-protect-the-us-military-from-threats-to-the-electric-grid-83698 How solar power can protect the US military from threats to the electric grid] ([http://www.salon.com/2017/09/17/how-solar-power-can-protect-the-us-military-from-threats-to-the-electric-grid_partner/ Salon], [http://web.archive.org/web/20170914111412/http://www.latimes.com/sns-how-solar-power-can-protect-the-us-military-from-threats-to-the-electric-grid-83698-20170914-story.html LA Times], [http://web.archive.org/web/20180719224522/http://www.chicagotribune.com:80/sns-how-solar-power-can-protect-the-us-military-from-threats-to-the-electric-grid-83698-20170914-story.html Chicago Tribune], [http://www.sfgate.com/news/article/How-solar-power-can-protect-the-US-military-from-12196233.php San Francisco Chronicle], [http://www.businessinsider.com/how-solar-power-can-protect-the-us-military-2017-9 Business Insider]) | ||
File:bridge-osh.jpg|[https://www.nae.edu/19582/Bridge/174695.aspx Editor's Note: Introduction to Open Hardware in Science and Engineering] | File:bridge-osh.jpg|[https://www.nae.edu/19582/Bridge/174695.aspx Editor's Note: Introduction to Open Hardware in Science and Engineering] | ||
File:delta-sci.png|[https://www.nae.edu/19582/Bridge/174695/174822.aspx Impacts of Open Source Hardware in Science and Engineering] | File:delta-sci.png|[https://www.nae.edu/19582/Bridge/174695/174822.aspx Impacts of Open Source Hardware in Science and Engineering] | ||
File:biztogether.png|[https://opensource.com/article/17/10/rise-open-source Is the rise of open source connected to a decline in selfishness?] | File:biztogether.png|[https://opensource.com/article/17/10/rise-open-source Is the rise of open source connected to a decline in selfishness?] | ||
File:hybridart.png|[https://theconversation.com/subsidizing-coal-and-nuclear-power-could-drive-customers-off-the-grid-87159 Subsidizing coal and nuclear power could drive customers off the grid], [http://www.chicagotribune.com/sns-subsidizing-coal-and-nuclear-power-could-drive-customers-off-the-grid-87159-20171115-story.html Chicago Tribune], [http://journalstar.com/opinion/columnists/subsidizing-coal-and-nuclear-power-could-drive-customers-off-the/article_5f0390a2-8dbf-5b29-a802-69b69faa2079.html Lincoln Journal Star], [https://wtop.com/living/2017/11/subsidizing-coal-and-nuclear-power-could-drive-customers-off-the-grid/ Washington's Top News] | File:hybridart.png|[https://theconversation.com/subsidizing-coal-and-nuclear-power-could-drive-customers-off-the-grid-87159 Subsidizing coal and nuclear power could drive customers off the grid], [http://web.archive.org/web/20171115121249/http://www.chicagotribune.com/sns-subsidizing-coal-and-nuclear-power-could-drive-customers-off-the-grid-87159-20171115-story.html Chicago Tribune], [http://journalstar.com/opinion/columnists/subsidizing-coal-and-nuclear-power-could-drive-customers-off-the/article_5f0390a2-8dbf-5b29-a802-69b69faa2079.html Lincoln Journal Star], [http://web.archive.org/web/20171115020330/https://wtop.com/living/2017/11/subsidizing-coal-and-nuclear-power-could-drive-customers-off-the-grid/ Washington's Top News] | ||
File:aalto-fablab.png|[https://opensource.com/article/17/12/paying-it-forward-aalto-fab-lab Paying it forward at Finland's Aalto Fablab] | File:aalto-fablab.png|[https://opensource.com/article/17/12/paying-it-forward-aalto-fab-lab Paying it forward at Finland's Aalto Fablab] | ||
File:gosh.jpg|[http://openhardware.science/2017/12/05/accelerating-science-and-improving-equitable-access-to-hands-on-stem-education-through-open-science-hardware/ Accelerating science and improving equitable access to hands-on STEM education through open science hardware] | File:gosh.jpg|[http://openhardware.science/2017/12/05/accelerating-science-and-improving-equitable-access-to-hands-on-stem-education-through-open-science-hardware/ Accelerating science and improving equitable access to hands-on STEM education through open science hardware] | ||
File:openscaddemo.png|[https://ultimaker.com/en/blog/52225-how-to-use-openscad-to-design-for-3d-printing How to use OpenSCAD to design for 3D printing] | File:openscaddemo.png|[http://web.archive.org/web/20180711161624/https://ultimaker.com/en/blog/52225-how-to-use-openscad-to-design-for-3d-printing How to use OpenSCAD to design for 3D printing] | ||
File:freegold.jpg|[https://www.huffingtonpost.com/entry/would-trump-block-low-cost-foreign-gold-imports-lessons_us_5a3b7778e4b0d86c803c6f03 Would Trump Block Low-Cost Foreign Gold Imports? Lessons for the Brewing Solar Trade War] | File:freegold.jpg|[https://www.huffingtonpost.com/entry/would-trump-block-low-cost-foreign-gold-imports-lessons_us_5a3b7778e4b0d86c803c6f03 Would Trump Block Low-Cost Foreign Gold Imports? Lessons for the Brewing Solar Trade War] | ||
File:samopen.png|[https://opensource.com/article/17/10/open-source-renewable-energy-software U.S. makes renewable energy software open source] | File:samopen.png|[https://opensource.com/article/17/10/open-source-renewable-energy-software U.S. makes renewable energy software open source] | ||
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==2016 Completed Projects and Publications== | ==2016 Completed Projects and Publications== | ||
<gallery | |||
File:solarworker.jpg|[[Retraining Investment for U.S. Transition from Coal to Solar Photovoltaic Employment]] | <gallery> | ||
File:agrivoltaic-c.jpg|[[The potential of agrivoltaic systems]] | File:solarworker.jpg|link=[[Retraining Investment for U.S. Transition from Coal to Solar Photovoltaic Employment]]|[[Retraining Investment for U.S. Transition from Coal to Solar Photovoltaic Employment]] | ||
File:Co2liab.png|[[A Review of Greenhouse Gas Emission Liabilities as the Value of Renewable Energy for Mitigating Lawsuits for Climate Change Related Damages|Greenhouse Gas Emission Liabilities]] | File:agrivoltaic-c.jpg|link=[[The potential of agrivoltaic systems]]|[[The potential of agrivoltaic systems]] | ||
File:reindeerpv.png|[[Technical viability of mobile solar photovoltaic systems for indigenous nomadic communities in northern latitudes| | File:Co2liab.png|link=[[A Review of Greenhouse Gas Emission Liabilities as the Value of Renewable Energy for Mitigating Lawsuits for Climate Change Related Damages]]|[[A Review of Greenhouse Gas Emission Liabilities as the Value of Renewable Energy for Mitigating Lawsuits for Climate Change Related Damages]] | ||
File:hybridpower.png|[[Levelized cost of electricity for solar photovoltaic, battery and cogen hybrid systems]] | File:reindeerpv.png|link=[[Technical viability of mobile solar photovoltaic systems for indigenous nomadic communities in northern latitudes]]|[[Technical viability of mobile solar photovoltaic systems for indigenous nomadic communities in northern latitudes]] | ||
File:grid-defect.jpg|[[Emerging economic viability of grid defection in a northern climate using solar hybrid systems]] | File:hybridpower.png|link=[[Levelized cost of electricity for solar photovoltaic, battery and cogen hybrid systems]]|[[Levelized cost of electricity for solar photovoltaic, battery and cogen hybrid systems]] | ||
File:solarpnp.png|[[A review of technical requirements for plug-and-play solar photovoltaic microinverter systems in the United States| | File:grid-defect.jpg|link=[[Emerging economic viability of grid defection in a northern climate using solar hybrid systems]]|[[Emerging economic viability of grid defection in a northern climate using solar hybrid systems]] | ||
File:fukushimainsurance.png|[[Nuclear Insurance Subsidies Cost from Post-Fukushima Accounting Based on Media Sources]] | File:solarpnp.png|link=[[A review of technical requirements for plug-and-play solar photovoltaic microinverter systems in the United States]]|[[A review of technical requirements for plug-and-play solar photovoltaic microinverter systems in the United States]] | ||
File:weakerpatent.png|[[The Case for Weaker Patents]] | File:fukushimainsurance.png|link=[[Nuclear Insurance Subsidies Cost from Post-Fukushima Accounting Based on Media Sources]]|[[Nuclear Insurance Subsidies Cost from Post-Fukushima Accounting Based on Media Sources]] | ||
File:Roi.jpg|[[Return on Investment for Open Source Hardware Development]] | File:weakerpatent.png|link=[[The Case for Weaker Patents]]|[[The Case for Weaker Patents]] | ||
File:pvreprap2.png|[[High-Efficiency Solar-Powered 3-D Printers for Sustainable Development]] | File:Roi.jpg|link=[[Return on Investment for Open Source Hardware Development]]|[[Return on Investment for Open Source Hardware Development]] | ||
File:Franklin.png|[[Free and Open-source Control Software for 3-D Motion and Processing|Franklin - Free and Open-source Control Software for 3-D Motion and Processing]] | File:pvreprap2.png|link=[[High-Efficiency Solar-Powered 3-D Printers for Sustainable Development]]|[[High-Efficiency Solar-Powered 3-D Printers for Sustainable Development]] | ||
File:overheadwaste.png|[[How Accounting Costs Science Millions a Year]] | File:Franklin.png|link=[[Free and Open-source Control Software for 3-D Motion and Processing|Franklin - Free and Open-source Control Software for 3-D Motion and Processing]]|[[Free and Open-source Control Software for 3-D Motion and Processing|Franklin - Free and Open-source Control Software for 3-D Motion and Processing]] | ||
File:quad-delta.jpg|[[Open-source, self-replicating 3-D printer factory for small-business manufacturing]] | File:overheadwaste.png|link=[[How Accounting Costs Science Millions a Year]]|[[How Accounting Costs Science Millions a Year]] | ||
File:laserwelderwork.png|[[Open Source Laser Polymer Welding System: Design and Characterization of Linear Low-Density Polyethylene Multilayer Welds|Open Source Laser Linear Low-Density Polyethylene | File:quad-delta.jpg|link=[[Open-source, self-replicating 3-D printer factory for small-business manufacturing]]|[[Open-source, self-replicating 3-D printer factory for small-business manufacturing]] | ||
File:waxprinter.jpg|[[Open-source Wax RepRap 3-D Printer for Rapid Prototyping Paper-Based Microfluidics]] | File:laserwelderwork.png|link=[[Open Source Laser Polymer Welding System: Design and Characterization of Linear Low-Density Polyethylene Multilayer Welds]]|[[Open Source Laser Polymer Welding System: Design and Characterization of Linear Low-Density Polyethylene Multilayer Welds]] | ||
File:RepRapsci.jpg|[[Open-source 3-D Platform for Low-cost Scientific Instrument Ecosystem]] | File:waxprinter.jpg|link=[[Open-source Wax RepRap 3-D Printer for Rapid Prototyping Paper-Based Microfluidics]]|[[Open-source Wax RepRap 3-D Printer for Rapid Prototyping Paper-Based Microfluidics]] | ||
File:globalchain.png|[[Global value chains from a 3D printing perspective]] | File:RepRapsci.jpg|link=[[Open-source 3-D Platform for Low-cost Scientific Instrument Ecosystem]]|[[Open-source 3-D Platform for Low-cost Scientific Instrument Ecosystem]] | ||
File:3dmicroscope.png|[[Free and open-source automated 3-D microscope]] | File:globalchain.png|link=[[Global value chains from a 3D printing perspective]]|[[Global value chains from a 3D printing perspective]] | ||
File:al-micro.png|[[Structure-Property Relationships of Common Aluminum Weld Alloys Utilized as Feedstock for GMAW-based 3-D Metal Printing]] | File:3dmicroscope.png|link=[[Free and open-source automated 3-D microscope]]|[[Free and open-source automated 3-D microscope]] | ||
File:freeipsearch.jpg|[[Open Source Database and Website to Provide Free and Open Access to Inactive U.S. Patents in the Public Domain]] | File:al-micro.png|link=[[Structure-Property Relationships of Common Aluminum Weld Alloys Utilized as Feedstock for GMAW-based 3-D Metal Printing]]|[[Structure-Property Relationships of Common Aluminum Weld Alloys Utilized as Feedstock for GMAW-based 3-D Metal Printing]] | ||
File:freeipsearch.jpg|link=[[Open Source Database and Website to Provide Free and Open Access to Inactive U.S. Patents in the Public Domain]]|[[Open Source Database and Website to Provide Free and Open Access to Inactive U.S. Patents in the Public Domain]] | |||
File:pv-materials-book.jpg|[http://www.mdpi.com/books/pdfview/book/213 Photovoltaic Materials and Electronic Devices] | File:pv-materials-book.jpg|[http://www.mdpi.com/books/pdfview/book/213 Photovoltaic Materials and Electronic Devices] | ||
File:ito-o2.png|[[Influence of Oxygen Concentration on the Performance of Ultra-Thin RF Magnetron Sputter Deposited Indium Tin Oxide Films as a Top Electrode for Photovoltaic Devices| | File:ito-o2.png|link=[[Influence of Oxygen Concentration on the Performance of Ultra-Thin RF Magnetron Sputter Deposited Indium Tin Oxide Films as a Top Electrode for Photovoltaic Devices]]|[[Influence of Oxygen Concentration on the Performance of Ultra-Thin RF Magnetron Sputter Deposited Indium Tin Oxide Films as a Top Electrode for Photovoltaic Devices]] | ||
File:ito-shave.png|[[A new method of preparing highly conductive ultra-thin indium tin oxide for plasmonic-enhanced thin film solar photovoltaic devices| | File:ito-shave.png|link=[[A new method of preparing highly conductive ultra-thin indium tin oxide for plasmonic-enhanced thin film solar photovoltaic devices]]|[[A new method of preparing highly conductive ultra-thin indium tin oxide for plasmonic-enhanced thin film solar photovoltaic devices]] | ||
File:hexarray.png|[[Plasmonic enhancement of amorphous silicon solar photovoltaic cells with hexagonal silver arrays made with nanosphere lithography]] | File:hexarray.png|link=[[Plasmonic enhancement of amorphous silicon solar photovoltaic cells with hexagonal silver arrays made with nanosphere lithography]]|[[Plasmonic enhancement of amorphous silicon solar photovoltaic cells with hexagonal silver arrays made with nanosphere lithography]] | ||
File:killbio.png|[[Structural and optical characterization and efficacy of hydrothermal synthesized Cu and Ag doped zinc oxide nanoplate bactericides]] | File:killbio.png|link=[[Structural and optical characterization and efficacy of hydrothermal synthesized Cu and Ag doped zinc oxide nanoplate bactericides]]|[[Structural and optical characterization and efficacy of hydrothermal synthesized Cu and Ag doped zinc oxide nanoplate bactericides]] | ||
File:Corruption.jpg|[https://rdcu.be/bqAML Are you overpaying your academic executive team? A method for detecting unmerited academic executive compensation] | File:Corruption.jpg|[https://rdcu.be/bqAML Are you overpaying your academic executive team? A method for detecting unmerited academic executive compensation] | ||
File:beverage.jpg|[[Alternative Foods as a Solution to Global Food Supply Catastrophes]] | File:beverage.jpg|link=[[Alternative Foods as a Solution to Global Food Supply Catastrophes]]|[[Alternative Foods as a Solution to Global Food Supply Catastrophes]] | ||
File:davos1.png|[[Feeding Everyone if Industry is Disabled]] | File:davos1.png|link=[[Feeding Everyone if Industry is Disabled]]|[[Feeding Everyone if Industry is Disabled]] | ||
File:davos2.png|[[Providing Non-food Needs if Industry is Disabled]] | File:davos2.png|link=[[Providing Non-food Needs if Industry is Disabled]]|[[Providing Non-food Needs if Industry is Disabled]] | ||
File:davos3.png|[[Vitamins in Agricultural Catastrophes]] | File:davos3.png|link=[[Vitamins in Agricultural Catastrophes]]|[[Vitamins in Agricultural Catastrophes]] | ||
File:davos4.png|[[Integrative Risk Management for Catastrophe Destroying 10-20% of Global Food Supply]] | File:davos4.png|link=[[Integrative Risk Management for Catastrophe Destroying 10-20% of Global Food Supply]]|[[Integrative Risk Management for Catastrophe Destroying 10-20% of Global Food Supply]] | ||
File:Agshort.gif|[[Cost-Effectiveness of Interventions for Alternate Food to Address Agricultural Catastrophes Globally]] | File:Agshort.gif|link=[[Cost-Effectiveness of Interventions for Alternate Food to Address Agricultural Catastrophes Globally]]|[[Cost-Effectiveness of Interventions for Alternate Food to Address Agricultural Catastrophes Globally]] | ||
</gallery> | </gallery> | ||
==2016 Popular Audience Articles== | ==2016 Popular Audience Articles== | ||
<gallery mode= | |||
<gallery heights="130" mode="packed"> | |||
File:Offgridnew.png|[[MOST News Coverage 2016]] | File:Offgridnew.png|[[MOST News Coverage 2016]] | ||
File:hardwarex.gif|[ | File:hardwarex.gif|[hhttps://web.archive.org/web/20201028204738/https://www.journals.elsevier.com/hardwarex/news/greetings-from-the-editor-in-chief-of-hardwarex Greetings from the Editor-in-Chief of HardwareX] | ||
File:catfight.jpg|[http://www.linux-magazine.com/Issues/2016/185/Patent-Trolls The Best Defense is a Good Offense: How to kill patent trolls before they are born] | File:catfight.jpg|[http://www.linux-magazine.com/Issues/2016/185/Patent-Trolls The Best Defense is a Good Offense: How to kill patent trolls before they are born] | ||
File:bushpaint.png|[http://www.huffingtonpost.com/joshua-pearce/earth-day-2016-why-george_b_9744398.html Earth Day 2016: Why George W. Bush gives me hope for the future of the planet][http://www.mtu.edu/unscripted/stories/2016/april/earth-day-2016-why-george-bush-gives-me-hope-for-planets-future.html] | File:bushpaint.png|[http://www.huffingtonpost.com/joshua-pearce/earth-day-2016-why-george_b_9744398.html Earth Day 2016: Why George W. Bush gives me hope for the future of the planet][http://www.mtu.edu/unscripted/stories/2016/april/earth-day-2016-why-george-bush-gives-me-hope-for-planets-future.html] | ||
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File:openarms.jpg|[http://www.huffingtonpost.com/joshua-pearce/solar-industry-welcomes-c_b_10602842.html Solar Industry Welcomes Coal Workers With Open Arms] | File:openarms.jpg|[http://www.huffingtonpost.com/joshua-pearce/solar-industry-welcomes-c_b_10602842.html Solar Industry Welcomes Coal Workers With Open Arms] | ||
File:hardwarex2.jpg|[http://www.materialstoday.com/mechanical-properties/news/hardware-x-new-open-access-journal-for-open-source/ HardwareX: New Open Access Journal for Open Source Hardware from Elsevier] | File:hardwarex2.jpg|[http://www.materialstoday.com/mechanical-properties/news/hardware-x-new-open-access-journal-for-open-source/ HardwareX: New Open Access Journal for Open Source Hardware from Elsevier] | ||
File:OBI.png|[http://www.huffingtonpost.com/joshua-pearce/building-your-own-home-fr_b_10737124.html Building Your Own Home From Open Source Blocks][http://ose-21.org/2016/06/30/joshua-pearce-building-your-own-home-from-open-source-blocks/] | File:OBI.png|[http://www.huffingtonpost.com/joshua-pearce/building-your-own-home-fr_b_10737124.html Building Your Own Home From Open Source Blocks][http://web.archive.org/web/20160701045445/http://ose-21.org/2016/06/30/joshua-pearce-building-your-own-home-from-open-source-blocks/] | ||
File:X-Men.jpg|[https://opensource.com/life/16/7/hardwarex-open-access-journal New journal HardwareX to promote open source hardware for science] | File:X-Men.jpg|[https://opensource.com/life/16/7/hardwarex-open-access-journal New journal HardwareX to promote open source hardware for science] | ||
File:oshouse.png|[https://opensource.com/life/16/7/getting-serious-about-open-source-homes A open source toolkit for building your own home] | File:oshouse.png|[https://opensource.com/life/16/7/getting-serious-about-open-source-homes A open source toolkit for building your own home] | ||
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==2015 Completed Projects and Publications== | ==2015 Completed Projects and Publications== | ||
<gallery | |||
File:Feedingeveryone.jpg|[[Feeding Everyone No Matter What]] | <gallery> | ||
File:Foodweb.png|[[Feeding Everyone: Solving the Food Crisis in Event of Global Catastrophes that Kill Crops or Obscure the Sun]] | File:Feedingeveryone.jpg|link=[[Feeding Everyone No Matter What]]|[[Feeding Everyone No Matter What]] | ||
File:us-pop.png|[[Resilience to global food supply catastrophes]] | File:Foodweb.png|link=[[Feeding Everyone: Solving the Food Crisis in Event of Global Catastrophes that Kill Crops or Obscure the Sun]]|[[Feeding Everyone: Solving the Food Crisis in Event of Global Catastrophes that Kill Crops or Obscure the Sun]] | ||
File:Virtual-ed.jpg|[[A Virtual Educational Exchange: A North-South Virtually-Shared Class on Sustainable Development]] | File:us-pop.png|link=[[Resilience to global food supply catastrophes]]|[[Resilience to global food supply catastrophes]] | ||
File:OSH-cash.png|[[Quantifying the Value of Open Source Hardware Development]] | File:Virtual-ed.jpg|link=[[A Virtual Educational Exchange: A North-South Virtually-Shared Class on Sustainable Development]]|[[A Virtual Educational Exchange: A North-South Virtually-Shared Class on Sustainable Development]] | ||
File:Building-osh.jpg|[[Building Open Source Hardware in Academia]] | File:OSH-cash.png|link=[[Quantifying the Value of Open Source Hardware Development]]|[[Quantifying the Value of Open Source Hardware Development]] | ||
File:openmed.jpg|[[Maximizar la rentabilidad de la inversión para la salud pública con hardware médico de código abierto]] | File:Building-osh.jpg|link=[[Building Open Source Hardware in Academia]]|[[Building Open Source Hardware in Academia]] | ||
File:Ito-gas.gif|[[Effect of ambient combinations of argon, oxygen, and hydrogen on the properties of DC magnetron sputtered indium tin oxide films|Effect of ambient combinations of | File:openmed.jpg|link=[[Maximizar la rentabilidad de la inversión para la salud pública con hardware médico de código abierto]]|[[Maximizar la rentabilidad de la inversión para la salud pública con hardware médico de código abierto]] | ||
File:ito.gif|[[A novel synthesis of tin oxide thin films by the sol-gel process for optoelectronic applications| | File:Ito-gas.gif|link=[[Effect of ambient combinations of argon, oxygen, and hydrogen on the properties of DC magnetron sputtered indium tin oxide films]]|[[Effect of ambient combinations of argon, oxygen, and hydrogen on the properties of DC magnetron sputtered indium tin oxide films]] | ||
File:peanutZnO.jpg|[[Peanut shaped ZnO microstructures: controlled synthesis and nucleation growth toward low-cost dye sensitized solar cells|Peanut shaped ZnO | File:ito.gif|link=[[A novel synthesis of tin oxide thin films by the sol-gel process for optoelectronic applications]]|[[A novel synthesis of tin oxide thin films by the sol-gel process for optoelectronic applications]] | ||
File:Itoplas.jpg|[[Limitations of ultra-thin transparent conducting oxides for integration into plasmonic-enhanced thin-film solar photovoltaic devices| | File:peanutZnO.jpg|link=[[Peanut shaped ZnO microstructures: controlled synthesis and nucleation growth toward low-cost dye sensitized solar cells]]|[[Peanut shaped ZnO microstructures: controlled synthesis and nucleation growth toward low-cost dye sensitized solar cells]] | ||
File:elec-heat.jpg|[[Optimization of annealing cycles for electric output in outdoor conditions for amorphous silicon photovoltaic–thermal systems|Optimization of annealing cycles for | File:Itoplas.jpg|link=[[Limitations of ultra-thin transparent conducting oxides for integration into plasmonic-enhanced thin-film solar photovoltaic devices]]|[[Limitations of ultra-thin transparent conducting oxides for integration into plasmonic-enhanced thin-film solar photovoltaic devices]] | ||
File:xwire-pv.jpg|[[Total U.S. cost evaluation of low-weight tension-based photovoltaic flat-roof mounted racking]] | File:elec-heat.jpg|link=[[Optimization of annealing cycles for electric output in outdoor conditions for amorphous silicon photovoltaic–thermal systems]]|[[Optimization of annealing cycles for electric output in outdoor conditions for amorphous silicon photovoltaic–thermal systems]] | ||
File:PLA-symb.jpg|[[Polymer recycling codes for distributed manufacturing with 3-D printers]] | File:xwire-pv.jpg|link=[[Total U.S. cost evaluation of low-weight tension-based photovoltaic flat-roof mounted racking]]|[[Total U.S. cost evaluation of low-weight tension-based photovoltaic flat-roof mounted racking]] | ||
File:3D Printer_TeachersWorkshop.jpg|[[Open-source 3-D printing Technologies for Education: Bringing Additive Manufacturing to the Classroom|Open-source 3-D printing Technologies for | File:PLA-symb.jpg|link=[[Polymer recycling codes for distributed manufacturing with 3-D printers]]|[[Polymer recycling codes for distributed manufacturing with 3-D printers]] | ||
File:deltateacherworkshop.jpg|[[Evaluation of RepRap 3D Printer Workshops in K-12 STEM]] | File:3D Printer_TeachersWorkshop.jpg|link=[[Open-source 3-D printing Technologies for Education: Bringing Additive Manufacturing to the Classroom]]|[[Open-source 3-D printing Technologies for Education: Bringing Additive Manufacturing to the Classroom]] | ||
File:Organic-farm-reprap.jpg|[[Applications of Open Source 3-D Printing on Small Farms]] | File:deltateacherworkshop.jpg|link=[[Evaluation of RepRap 3D Printer Workshops in K-12 STEM]]|[[Evaluation of RepRap 3D Printer Workshops in K-12 STEM]] | ||
File:power-weld.jpg|[[Low-cost Open-Source Voltage and Current Monitor for Gas Metal Arc Weld 3-D Printing]] | File:Organic-farm-reprap.jpg|link=[[Applications of Open Source 3-D Printing on Small Farms]]|[[Applications of Open Source 3-D Printing on Small Farms]] | ||
File:printsurface.png|[[In Situ Formation of Substrate Release Mechanisms for Gas Metal Arc Weld Metal 3-D Printing]] | File:power-weld.jpg|link=[[Low-cost Open-Source Voltage and Current Monitor for Gas Metal Arc Weld 3-D Printing]]|[[Low-cost Open-Source Voltage and Current Monitor for Gas Metal Arc Weld 3-D Printing]] | ||
File:pv-chp-bat-out.jpg|[[Performance of U.S. hybrid distributed energy systems: Solar photovoltaic, battery and combined heat and power|Solar photovoltaic, battery and combined heat and power | File:printsurface.png|link=[[In Situ Formation of Substrate Release Mechanisms for Gas Metal Arc Weld Metal 3-D Printing]]|[[In Situ Formation of Substrate Release Mechanisms for Gas Metal Arc Weld Metal 3-D Printing]] | ||
File:switch-reprap.jpg|[[Multi-material additive and subtractive prosumer digital fabrication with a free and open-source convertible delta RepRap 3-D printer|Multi-material additive and subtractive prosumer digital fabrication]] | File:pv-chp-bat-out.jpg|link=[[Performance of U.S. hybrid distributed energy systems: Solar photovoltaic, battery and combined heat and power]]|[[Performance of U.S. hybrid distributed energy systems: Solar photovoltaic, battery and combined heat and power]] | ||
File:osnitratetester.png|[[Open-Source Photometric System for Enzymatic Nitrate Quantification]] | File:switch-reprap.jpg|link=[[Multi-material additive and subtractive prosumer digital fabrication with a free and open-source convertible delta RepRap 3-D printer]]|[[Multi-material additive and subtractive prosumer digital fabrication with a free and open-source convertible delta RepRap 3-D printer]] | ||
File:Spie-plasmonic.jpg|[[Controlling optical absorption in metamaterial absorbers for plasmonic solar cells]] | File:osnitratetester.png|link=[[Open-Source Photometric System for Enzymatic Nitrate Quantification]]|[[Open-Source Photometric System for Enzymatic Nitrate Quantification]] | ||
File:Qulliq1.jpg|[[Renewable_energy_policy_in_the_north#Overcoming_the_North.27s_Diesel_Dependence_With_Renewable_Energy|Overcoming the North's Diesel Dependence With Renewable Energy]] | File:Spie-plasmonic.jpg|link=[[Controlling optical absorption in metamaterial absorbers for plasmonic solar cells]]|[[Controlling optical absorption in metamaterial absorbers for plasmonic solar cells]] | ||
File:onlined.jpg|[[Educational Pathways to Remote Employment in Isolated Communities]] | File:Qulliq1.jpg|link=[[Renewable_energy_policy_in_the_north#Overcoming_the_North.27s_Diesel_Dependence_With_Renewable_Energy|Overcoming the North's Diesel Dependence With Renewable Energy]]|[[Renewable_energy_policy_in_the_north#Overcoming_the_North.27s_Diesel_Dependence_With_Renewable_Energy|Overcoming the North's Diesel Dependence With Renewable Energy]] | ||
File:Reflectorpv.jpg|[[Photovoltaic System Performance Enhancement With Non-Tracking Planar Concentrators: Experimental Results and Bi-Directional Reflectance Function (BDRF) Based Modelling|Bi-Directional Reflectance Function (BDRF) Based Modelling | File:onlined.jpg|link=[[Educational Pathways to Remote Employment in Isolated Communities]]|[[Educational Pathways to Remote Employment in Isolated Communities]] | ||
File:snow-pv-block.jpg|[[Impact of Snow and Ground Interference on Photovoltaic Electric System Performance]] | File:Reflectorpv.jpg|link=[[Photovoltaic System Performance Enhancement With Non-Tracking Planar Concentrators: Experimental Results and Bi-Directional Reflectance Function (BDRF) Based Modelling]]|[[Photovoltaic System Performance Enhancement With Non-Tracking Planar Concentrators: Experimental Results and Bi-Directional Reflectance Function (BDRF) Based Modelling]] | ||
File:nopatent.png|[[A novel approach to obviousness: An algorithm for identifying prior art concerning 3-D printing materials|A novel approach to obviousness: An algorithm for identifying prior art]] | File:snow-pv-block.jpg|link=[[Impact of Snow and Ground Interference on Photovoltaic Electric System Performance]]|[[Impact of Snow and Ground Interference on Photovoltaic Electric System Performance]] | ||
File:bracket.jpg|[[Distributed manufacturing with 3-D printing: a case study of recreational vehicle solar photovoltaic mounting systems|Distributed manufacturing with 3-D printing: | File:nopatent.png|link=[[A novel approach to obviousness: An algorithm for identifying prior art concerning 3-D printing materials]]|[[A novel approach to obviousness: An algorithm for identifying prior art concerning 3-D printing materials]] | ||
File:magneto.jpg|[[Integrated Voltage—Current Monitoring and Control of Gas Metal Arc Weld Magnetic Ball-Jointed Open Source 3-D Printer|Integrated | File:bracket.jpg|link=[[Distributed manufacturing with 3-D printing: a case study of recreational vehicle solar photovoltaic mounting systems]]|[[Distributed manufacturing with 3-D printing: a case study of recreational vehicle solar photovoltaic mounting systems]] | ||
File:BaTiO3.jpg|[[Preparation of meta-stable phases of barium titanate by sol-hydrothermal method]] | File:magneto.jpg|link=[[Integrated Voltage—Current Monitoring and Control of Gas Metal Arc Weld Magnetic Ball-Jointed Open Source 3-D Printer]]|[[Integrated Voltage—Current Monitoring and Control of Gas Metal Arc Weld Magnetic Ball-Jointed Open Source 3-D Printer]] | ||
File:Pv-n.jpg|[[Solar Photovoltaic Powered On-Site Ammonia Production for Nitrogen Fertilization]] | File:BaTiO3.jpg|link=[[Preparation of meta-stable phases of barium titanate by sol-hydrothermal method]]|[[Preparation of meta-stable phases of barium titanate by sol-hydrothermal method]] | ||
File:save-humanity.png|[[Sharing Free Knowledge to Save Humanity]] | File:Pv-n.jpg|link=[[Solar Photovoltaic Powered On-Site Ammonia Production for Nitrogen Fertilization]]|[[Solar Photovoltaic Powered On-Site Ammonia Production for Nitrogen Fertilization]] | ||
File:placolor.jpg|[[The Effects of PLA Color on Material Properties of 3-D Printed Components]] | File:save-humanity.png|link=[[Sharing Free Knowledge to Save Humanity]]|[[Sharing Free Knowledge to Save Humanity]] | ||
File:gensolar.png|[[Reducing the Threat of a Nuclear Iran with Photovoltaic Technology: The Generous Solar Option|Reducing the Threat of a Nuclear Iran with PV: The Generous Solar Option]] | File:placolor.jpg|link=[[The Effects of PLA Color on Material Properties of 3-D Printed Components]]|[[The Effects of PLA Color on Material Properties of 3-D Printed Components]] | ||
File:moneyph.png|[[Aligning executive incentives with global public health goals]] | File:gensolar.png|link=[[Reducing the Threat of a Nuclear Iran with Photovoltaic Technology: The Generous Solar Option|Reducing the Threat of a Nuclear Iran with PV: The Generous Solar Option]]|[[Reducing the Threat of a Nuclear Iran with Photovoltaic Technology: The Generous Solar Option|Reducing the Threat of a Nuclear Iran with PV: The Generous Solar Option]] | ||
File:moneyph.png|link=[[Aligning executive incentives with global public health goals]]|[[Aligning executive incentives with global public health goals]] | |||
</gallery> | </gallery> | ||
==2015 Popular Audience Articles== | ==2015 Popular Audience Articles== | ||
<gallery mode= | |||
<gallery heights="130" mode="packed"> | |||
File:3dpworkshop.PNG|[[MOST News Coverage 2015]] | File:3dpworkshop.PNG|[[MOST News Coverage 2015]] | ||
File:3dipweapon.jpg|[https://www.academia.edu/14049733/Intellectual_Property_as_a_Strategic_National_Industrial_Weapon_the_Case_of_3D_Printing Intellectual Property as a Strategic National Industrial Weapon: the Case of 3D Printing] | File:3dipweapon.jpg|[https://www.academia.edu/14049733/Intellectual_Property_as_a_Strategic_National_Industrial_Weapon_the_Case_of_3D_Printing Intellectual Property as a Strategic National Industrial Weapon: the Case of 3D Printing] | ||
Line 384: | Line 448: | ||
==2014 Completed Projects and Publications== | ==2014 Completed Projects and Publications== | ||
<gallery | |||
File:OSL.jpg|[[Open-source Lab|Laboratory equipment: Cut costs with open-source hardware]] | <gallery> | ||
File:Double-pump.jpg|[[Open-source syringe pump]] | File:OSL.jpg|link=[[Open-source Lab|Laboratory equipment: Cut costs with open-source hardware]]|[[Open-source Lab|Laboratory equipment: Cut costs with open-source hardware]] | ||
File:alt-org.jpg|[[Free and Open Source Appropriate Technology]] | File:Double-pump.jpg|link=[[Open-source syringe pump]]|[[Open-source syringe pump]] | ||
File:Treadle_pump.jpg|[[Technology whose time has come]] | File:alt-org.jpg|link=[[Free and Open Source Appropriate Technology]]|[[Free and Open Source Appropriate Technology]] | ||
File:Ohec.png|[[Open-source hardware for science in Ecuador]] | File:Treadle_pump.jpg|link=[[Technology whose time has come]]|[[Technology whose time has come]] | ||
File:Save-planet.jpg|[[Save the planet board game]] | File:Ohec.png|link=[[Open-source hardware for science in Ecuador]]|[[Open-source hardware for science in Ecuador]] | ||
File:Pvcash.jpg|[[Securitization of residential solar photovoltaic assets]] | File:Save-planet.jpg|link=[[Save the planet board game]]|[[Save the planet board game]] | ||
File: PV+ther.jpg|[[Optimizing limited solar roof access by exergy analysis of solar thermal, photovoltaic, and hybrid photovoltaic thermal systems| | File:Pvcash.jpg|link=[[Securitization of residential solar photovoltaic assets]]|[[Securitization of residential solar photovoltaic assets]] | ||
File:Eye-c.png|[[Effects of spectral albedo on solar photovoltaic devices]] | File: PV+ther.jpg|link=[[Optimizing limited solar roof access by exergy analysis of solar thermal, photovoltaic, and hybrid photovoltaic thermal systems]]|[[Optimizing limited solar roof access by exergy analysis of solar thermal, photovoltaic, and hybrid photovoltaic thermal systems]] | ||
File:Lc-pv.jpg|[[Photovoltaic system performance enhancement with non-tracking planar concentrators: Experimental results and BDRF based modelling|Photovoltaic system performance enhancement with non-tracking planar concentrators]] | File:Eye-c.png|link=[[Effects of spectral albedo on solar photovoltaic devices]]|[[Effects of spectral albedo on solar photovoltaic devices]] | ||
File:Pvt.gif|[[The effects of dispatch strategy on electrical performance of amorphous silicon-based solar photovoltaic-thermal systems|Effects of dispatch strategy for solar photovoltaic-thermal systems]] | File:Lc-pv.jpg|link=[[Photovoltaic system performance enhancement with non-tracking planar concentrators: Experimental results and BDRF based modelling|Photovoltaic system performance enhancement with non-tracking planar concentrators]]|[[Photovoltaic system performance enhancement with non-tracking planar concentrators: Experimental results and BDRF based modelling|Photovoltaic system performance enhancement with non-tracking planar concentrators]] | ||
File:bsdt.jpg|[[Exchanging Ohmic losses in metamaterial absorbers with useful optical absorption for photovoltaics| | File:Pvt.gif|link=[[The effects of dispatch strategy on electrical performance of amorphous silicon-based solar photovoltaic-thermal systems]]|[[The effects of dispatch strategy on electrical performance of amorphous silicon-based solar photovoltaic-thermal systems|Effects of dispatch strategy for solar photovoltaic-thermal systems]] | ||
File:pvreprap.png|[[Mobile Open-Source Solar-Powered 3-D Printers for Distributed Manufacturing in Off-Grid Communities]]File:Recyclebot-process.png|[[Life cycle analysis of distributed recycling of post-consumer high density polyethylene for 3-D printing filament| | File:bsdt.jpg|link=[[Exchanging Ohmic losses in metamaterial absorbers with useful optical absorption for photovoltaics]]|[[Exchanging Ohmic losses in metamaterial absorbers with useful optical absorption for photovoltaics]] | ||
File:Dogbone.png|[[Mechanical Properties of Components Fabricated with Open-Source 3-D Printers Under Realistic Environmental| | File:pvreprap.png|link=[[Mobile Open-Source Solar-Powered 3-D Printers for Distributed Manufacturing in Off-Grid Communities]]|[[Mobile Open-Source Solar-Powered 3-D Printers for Distributed Manufacturing in Off-Grid Communities]] | ||
File:Doublew.jpg|[[Implementing Self-Replicating Rapid Prototypers (RepRaps) into a Mechanical/Manufacturing Program|Implementing RepRaps into a Mechanical/Manufacturing Program]] | File:Recyclebot-process.png|link=[[Life cycle analysis of distributed recycling of post-consumer high density polyethylene for 3-D printing filament]]|[[Life cycle analysis of distributed recycling of post-consumer high density polyethylene for 3-D printing filament]] | ||
File:Repraprev.png|[[The RepRap 3-D Printer Revolution in STEM Education]] | File:Dogbone.png|link=[[Mechanical Properties of Components Fabricated with Open-Source 3-D Printers Under Realistic Environmental]]|[[Mechanical Properties of Components Fabricated with Open-Source 3-D Printers Under Realistic Environmental]] | ||
File:OS water platform.JPG|[[Open-source mobile water quality testing platform]] | File:Doublew.jpg|link=[[Implementing Self-Replicating Rapid Prototypers (RepRaps) into a Mechanical/Manufacturing Program|Implementing RepRaps into a Mechanical/Manufacturing Program]]|[[Implementing Self-Replicating Rapid Prototypers (RepRaps) into a Mechanical/Manufacturing Program|Implementing RepRaps into a Mechanical/Manufacturing Program]] | ||
File:Appropedia_Logo_small_no_text.png|[[Innovation through collaboration: scaling up solutions for sustainable development]] | File:Repraprev.png|link=[[The RepRap 3-D Printer Revolution in STEM Education]]|[[The RepRap 3-D Printer Revolution in STEM Education]] | ||
File:Sudansodis.png|[[Evaluating the Geographic Viability of the Solar Water Disinfection (SODIS) Method by Decreasing Turbidity with NaCl: A Case Study of South Sudan|SODIS | File:OS water platform.JPG|link=[[Open-source mobile water quality testing platform]]|[[Open-source mobile water quality testing platform]] | ||
File:Virtual-ed.jpg|[[A Virtual Educational Exchange: A North-South Virtually-Shared Class on Sustainable Development]] | File:Appropedia_Logo_small_no_text.png|link=[[Innovation through collaboration: scaling up solutions for sustainable development]]|[[Innovation through collaboration: scaling up solutions for sustainable development]] | ||
File:hrv.png|[[Towards Low-Cost Microchannel Heat Exchangers: Vehicle Heat Recovery Ventilator Prototype|Low-Cost Microchannel Heat Exchangers: Vehicle Heat Recovery Ventilator Prototype]] | File:Sudansodis.png|link=[[Evaluating the Geographic Viability of the Solar Water Disinfection (SODIS) Method by Decreasing Turbidity with NaCl: A Case Study of South Sudan]]|[[Evaluating the Geographic Viability of the Solar Water Disinfection (SODIS) Method by Decreasing Turbidity with NaCl: A Case Study of South Sudan]] | ||
File:Deltabuild.jpg|[[Delta Build Workshop]] | File:Virtual-ed.jpg|link=[[A Virtual Educational Exchange: A North-South Virtually-Shared Class on Sustainable Development]]|[[A Virtual Educational Exchange: A North-South Virtually-Shared Class on Sustainable Development]] | ||
File:Household-energy.jpg|[[Simulations of Greenhouse Gas Emission Reductions from Low-Cost Hybrid Solar Photovoltaic and Cogeneration Systems for New Communities|Low-Cost Hybrid Solar | File:hrv.png|link=[[Towards Low-Cost Microchannel Heat Exchangers: Vehicle Heat Recovery Ventilator Prototype]]|[[Towards Low-Cost Microchannel Heat Exchangers: Vehicle Heat Recovery Ventilator Prototype]] | ||
File:nanodisk.gif|[[Multi-resonant silver nano-disk patterned thin film hydrogenated amorphous silicon solar cells for Staebler-Wronski effect compensation|Multi-resonant silver nano-disk patterned thin film solar cell]] | File:Deltabuild.jpg|link=[[Delta Build Workshop]]|[[Delta Build Workshop]] | ||
File:Ethicialfilament.jpg|[[Evaluation of Potential Fair Trade Standards for an Ethical 3-D Printing Filament]] | File:Household-energy.jpg|link=[[Simulations of Greenhouse Gas Emission Reductions from Low-Cost Hybrid Solar Photovoltaic and Cogeneration Systems for New Communities]]|[[Simulations of Greenhouse Gas Emission Reductions from Low-Cost Hybrid Solar Photovoltaic and Cogeneration Systems for New Communities]] | ||
File:Feedingeveryone.jpg|[[Feeding Everyone No Matter What]] | File:nanodisk.gif|link=[[Multi-resonant silver nano-disk patterned thin film hydrogenated amorphous silicon solar cells for Staebler-Wronski effect compensation|Multi-resonant silver nano-disk patterned thin film solar cell]]|[[Multi-resonant silver nano-disk patterned thin film hydrogenated amorphous silicon solar cells for Staebler-Wronski effect compensation|Multi-resonant silver nano-disk patterned thin film solar cell]] | ||
File:atmos-spec.png|[[Design of Multi-Junction Photovoltaic Cells Optimized for Varied Atmospheric Conditions]] | File:Ethicialfilament.jpg|link=[[Evaluation of Potential Fair Trade Standards for an Ethical 3-D Printing Filament]]|[[Evaluation of Potential Fair Trade Standards for an Ethical 3-D Printing Filament]] | ||
File:Pixbaypres.jpg|[[It Is Time to Move Research Expenditures to the Denominator in University Metrics]] | File:Feedingeveryone.jpg|link=[[Feeding Everyone No Matter What]]|[[Feeding Everyone No Matter What]] | ||
File:Sub-release.gif|[[Substrate Release Mechanisms for Gas Metal Arc Weld 3D Aluminum Metal Printing]] | File:atmos-spec.png|link=[[Design of Multi-Junction Photovoltaic Cells Optimized for Varied Atmospheric Conditions]]|[[Design of Multi-Junction Photovoltaic Cells Optimized for Varied Atmospheric Conditions]] | ||
File:Foodweb.png|[[Feeding Everyone: Solving the Food Crisis in Event of Global Catastrophes that Kill Crops or Obscure the Sun]] | File:Pixbaypres.jpg|link=[[It Is Time to Move Research Expenditures to the Denominator in University Metrics]]|[[It Is Time to Move Research Expenditures to the Denominator in University Metrics]] | ||
File:Custom-glass.png|[[Reversing the Trend of Large Scale and Centralization in Manufacturing: The Case of Distributed Manufacturing of Customizable 3-D-Printable Self-Adjustable Glasses|Distributed Manufacturing of Customizable 3-D-Printable Self-Adjustable Glasses]] | File:Sub-release.gif|link=[[Substrate Release Mechanisms for Gas Metal Arc Weld 3D Aluminum Metal Printing]]|[[Substrate Release Mechanisms for Gas Metal Arc Weld 3D Aluminum Metal Printing]] | ||
File:corn-shell.jpg|[[Corn sheller|Open source 3-D printable corn sheller]] | File:Foodweb.png|link=[[Feeding Everyone: Solving the Food Crisis in Event of Global Catastrophes that Kill Crops or Obscure the Sun]]|[[Feeding Everyone: Solving the Food Crisis in Event of Global Catastrophes that Kill Crops or Obscure the Sun]] | ||
File:Custom-glass.png|link=[[Reversing the Trend of Large Scale and Centralization in Manufacturing: The Case of Distributed Manufacturing of Customizable 3-D-Printable Self-Adjustable Glasses]]|[[Reversing the Trend of Large Scale and Centralization in Manufacturing: The Case of Distributed Manufacturing of Customizable 3-D-Printable Self-Adjustable Glasses]] | |||
File:corn-shell.jpg|link=[[Corn sheller|Open source 3-D printable corn sheller]]|[[Corn sheller|Open source 3-D printable corn sheller]] | |||
</gallery> | </gallery> | ||
==2013 Completed Projects and Publications== | ==2013 Completed Projects and Publications== | ||
<gallery | |||
File:OSL.jpg|[[Open-source Lab]] | <gallery> | ||
File:Sparks1.jpg|[[Open-source metal 3-D printer]] | File:OSL.jpg|link=[[Open-source Lab]]|[[Open-source Lab]] | ||
File:Lens-holder.jpg|[[Open-source 3D-printable optics equipment]] | File:Sparks1.jpg|link=[[Open-source metal 3-D printer]]|[[Open-source metal 3-D printer]] | ||
File:colorimeter.jpg|[[Open-source colorimeter]] | File:Lens-holder.jpg|link=[[Open-source 3D-printable optics equipment]]|[[Open-source 3D-printable optics equipment]] | ||
File:sci-in-lab.jpg|[[Open-source hardware for research and education]] | File:colorimeter.jpg|link=[[Open-source colorimeter]]|[[Open-source colorimeter]] | ||
File:Internet-osat.png|[[The Internet and other ICTs as tools and catalysts for sustainable development]] | File:sci-in-lab.jpg|link=[[Open-source hardware for research and education]]|[[Open-source hardware for research and education]] | ||
File:nanomess.JPG|[[Open-source nanotechnology: solutions to a modern intellectual property tragedy]] | File:Internet-osat.png|link=[[The Internet and other ICTs as tools and catalysts for sustainable development]]|[[The Internet and other ICTs as tools and catalysts for sustainable development]] | ||
File:MOST-reprap.png|[[Environmental impacts of distributed manufacturing from 3-D printing of polymer components and products|Environmental impacts of distributed manufacturing with 3-D printing]] | File:nanomess.JPG|link=[[Open-source nanotechnology: solutions to a modern intellectual property tragedy]]|[[Open-source nanotechnology: solutions to a modern intellectual property tragedy]] | ||
File:Printearth.jpg|[[Environmental life cycle analysis of distributed 3-D printing and conventional manufacturing of polymer products|Environmental life cycle analysis of distributed 3-D printing]] | File:MOST-reprap.png|link=[[Environmental impacts of distributed manufacturing from 3-D printing of polymer components and products|Environmental impacts of distributed manufacturing with 3-D printing]]|[[Environmental impacts of distributed manufacturing from 3-D printing of polymer components and products|Environmental impacts of distributed manufacturing with 3-D printing]] | ||
File:recyclebot.png|[[Recyclebot|RecycleBots for distributed plastic recycling]] | File:Printearth.jpg|link=[[Environmental life cycle analysis of distributed 3-D printing and conventional manufacturing of polymer products]]|[[Environmental life cycle analysis of distributed 3-D printing and conventional manufacturing of polymer products]] | ||
File:recyclebot-process.png|[[Distributed recycling of post-consumer plastic waste in rural areas]] | File:recyclebot.png|link=[[Recyclebot|RecycleBots for distributed plastic recycling]]|[[Recyclebot|RecycleBots for distributed plastic recycling]] | ||
File:3dprinted_household.JPG|[[Life-cycle economic analysis of distributed manufacturing with open-source 3-D printers]] | File:recyclebot-process.png|link=[[Distributed recycling of post-consumer plastic waste in rural areas]]|[[Distributed recycling of post-consumer plastic waste in rural areas]] | ||
File:3D_Printer_TeachersWorkshop.jpg|[[:Category:MOST_RepRap_build|Open-source RepRap 3-D Printer Teacher Workshop]] | File:3dprinted_household.JPG|link=[[Life-cycle economic analysis of distributed manufacturing with open-source 3-D printers]]|[[Life-cycle economic analysis of distributed manufacturing with open-source 3-D printers]] | ||
File:Rser.png|[[Toward renewable energy geo-information infrastructures]] | File:3D_Printer_TeachersWorkshop.jpg|link=[[:Category:MOST_RepRap_build|Open-source RepRap 3-D Printer Teacher Workshop]]|[[:Category:MOST_RepRap_build|Open-source RepRap 3-D Printer Teacher Workshop]] | ||
File:solarcity.png|[[Automated quantification of solar photovoltaic potential in cities]] | File:Rser.png|link=[[Toward renewable energy geo-information infrastructures]]|[[Toward renewable energy geo-information infrastructures]] | ||
File:Treeshadepv.png|[[Simple and low-cost method of planning for tree growth and lifetime effects on solar photovoltaic systems performance| | File:solarcity.png|link=[[Automated quantification of solar photovoltaic potential in cities]]|[[Automated quantification of solar photovoltaic potential in cities]] | ||
File:Nunavut-people.jpg|[[Renewable_energy_policy_in_the_north|Community Voices: Perspectives on Renewable Energy in Nunavut]] | File:Treeshadepv.png|link=[[Simple and low-cost method of planning for tree growth and lifetime effects on solar photovoltaic systems performance]]||[[Simple and low-cost method of planning for tree growth and lifetime effects on solar photovoltaic systems performance]] | ||
File:trigen-pv.png|[[Hybrid photovoltaic-trigeneration systems]] | File:Nunavut-people.jpg|link=[[Renewable_energy_policy_in_the_north|Community Voices: Perspectives on Renewable Energy in Nunavut]]|[[Renewable_energy_policy_in_the_north|Community Voices: Perspectives on Renewable Energy in Nunavut]] | ||
File:Recycle-silane.png|[[Life cycle analysis of silane recycling in amorphous silicon-based solar photovoltaic manufacturing| | File:trigen-pv.png|link=[[Hybrid photovoltaic-trigeneration systems]]|[[Hybrid photovoltaic-trigeneration systems]] | ||
File:Nanocolumns ingan-colors.jpg|[[InGaN solar cells literature review|Progress in indium gallium nitride materials for solar photovoltaics]] | File:Recycle-silane.png|link=[[Life cycle analysis of silane recycling in amorphous silicon-based solar photovoltaic manufacturing]]|[[Life cycle analysis of silane recycling in amorphous silicon-based solar photovoltaic manufacturing]] | ||
File:Solarnano.jpg|[[Advances in plasmonic light trapping in thin-film solar photovoltaic devices]] | File:Nanocolumns ingan-colors.jpg|link=[[InGaN solar cells literature review|Progress in indium gallium nitride materials for solar photovoltaics]]|[[InGaN solar cells literature review|Progress in indium gallium nitride materials for solar photovoltaics]] | ||
File:bandgapengineering.jpg|[[The viability of nanotechnology-based bandgap engineering in solar photovoltaic devices for sustainable energy generation| | File:Solarnano.jpg|link=[[Advances in plasmonic light trapping in thin-film solar photovoltaic devices]]|[[Advances in plasmonic light trapping in thin-film solar photovoltaic devices]] | ||
File:bandgapengineering.jpg|link=[[The viability of nanotechnology-based bandgap engineering in solar photovoltaic devices for sustainable energy generation]]|[[The viability of nanotechnology-based bandgap engineering in solar photovoltaic devices for sustainable energy generation]] | |||
File:Snow-vs-grass.png|[[ The effect of spectral albedo on amorphous silicon and crystalline silicon solar photovoltaic device | File:Va-spectrometer.jpg|link=[[Installation of a variable-angle spectrometer system for monitoring diffuse and global solar radiation]]|[[Installation of a variable-angle spectrometer system for monitoring diffuse and global solar radiation]] | ||
File:Prismatic-glass.jpg|[[A new method to determine the effects of hydrodynamic surface coatings on the snow shedding effectiveness of solar photovoltaic modules| | File:Snow-vs-grass.png|link=[[The effect of spectral albedo on amorphous silicon and crystalline silicon solar photovoltaic device performance]]|[[The effect of spectral albedo on amorphous silicon and crystalline silicon solar photovoltaic device performance]] | ||
File:Nafion.gif|[[Characteristics of self-assembled ultrathin Nafion films]] | File:SEARC_OTF.jpg|link=[[Effects of snow on photovoltaic performance]]|[[Effects of snow on photovoltaic performance]] | ||
File:Prismatic-glass.jpg|link=[[A new method to determine the effects of hydrodynamic surface coatings on the snow shedding effectiveness of solar photovoltaic modules]]|[[A new method to determine the effects of hydrodynamic surface coatings on the snow shedding effectiveness of solar photovoltaic modules]] | |||
File:Nafion.gif|link=[[Characteristics of self-assembled ultrathin Nafion films]]|[[Characteristics of self-assembled ultrathin Nafion films]] | |||
</gallery> | </gallery> | ||
==2011-2012 Completed Projects and Publications== | ==2011-2012 Completed Projects and Publications== | ||
<gallery | |||
File:Open-nano.png|[[Open source nanotechnology]] | <gallery> | ||
File:solar-nun.jpg|[[Technical feasibility of renewable electricity generation in Nunavut]] | File:Open-nano.png|link=[[Open source nanotechnology]]|[[Open source nanotechnology]] | ||
File:Wind1.jpg|[[Renewable energy policy in the north]] | File:solar-nun.jpg|link=[[Technical feasibility of renewable electricity generation in Nunavut]]|[[Technical feasibility of renewable electricity generation in Nunavut]] | ||
File:Snow+pv.jpg|[[Prediction of energy effects on photovoltaic systems due to snowfall events]] | File:Wind1.jpg|link=[[Renewable energy policy in the north]]|[[Renewable energy policy in the north]] | ||
File:Open_source_lab_jack.jpg|[[Building research equipment with free, open-source hardware]] | File:Snow+pv.jpg|link=[[Prediction of energy effects on photovoltaic systems due to snowfall events]]|[[Prediction of energy effects on photovoltaic systems due to snowfall events]] | ||
File:Diffuse-day.png|[[Parametric empirical determination of PV short circuit current]] | File:Open_source_lab_jack.jpg|link=[[Building research equipment with free, open-source hardware]]|[[Building research equipment with free, open-source hardware]] | ||
File:Aprologo-shiny-clearest-thumb.png|[[ Open source research in sustainability]] | File:Diffuse-day.png|link=[[Parametric empirical determination of PV short circuit current]]|[[Parametric empirical determination of PV short circuit current]] | ||
File:Ei.jpg|[[A new model for enabling innovation in appropriate technology for sustainable development]] | File:Aprologo-shiny-clearest-thumb.png|link=[[Open source research in sustainability]]|[[Open source research in sustainability]] | ||
File:Open-pv.png|[[Open-source development of solar photovoltaic technology]] | File:Ei.jpg|link=[[A new model for enabling innovation in appropriate technology for sustainable development]]|[[A new model for enabling innovation in appropriate technology for sustainable development]] | ||
File:Dirk Ellips Paper Figure 2.jpeg|[[Analytical Model for the Optical Functions of Indium Gallium Nitride with Application to Thin Film Solar Photovoltaic Cells]] | File:Open-pv.png|link=[[Open-source development of solar photovoltaic technology]]|[[Open-source development of solar photovoltaic technology]] | ||
File:Graph_keyOSAT_barriers. | File:Dirk Ellips Paper Figure 2.jpeg|link=[[Analytical Model for the Optical Functions of Indium Gallium Nitride with Application to Thin Film Solar Photovoltaic Cells]]|[[Analytical Model for the Optical Functions of Indium Gallium Nitride with Application to Thin Film Solar Photovoltaic Cells]] | ||
File:Pv-is.png|[[Industrial symbiosis in photovoltaic manufacturing]] | File:Graph_keyOSAT_barriers.jpg|link=[[Barriers to Appropriate Technology Growth in Sustainable Development]]|[[Barriers to Appropriate Technology Growth in Sustainable Development]] | ||
File:Dremelfuge.jpg|[[Open source 3-D printing of OSAT]] | File:Pv-is.png|link=[[Industrial symbiosis in photovoltaic manufacturing]]|[[Industrial symbiosis in photovoltaic manufacturing]] | ||
File:pvcash.jpg|[[Review of solar levelized cost]] | File:Dremelfuge.jpg|link=[[Open source 3-D printing of OSAT]]|[[Open source 3-D printing of OSAT]] | ||
File:EDS_cover.png|[[:media:2012_case_for_OSAT.pdf|The Case for Open Source Appropriate Technology]] | File:pvcash.jpg|link=[[Review of solar levelized cost]]|[[Review of solar levelized cost]] | ||
File:Spikeanneal.png|[[Amorphous silicon Photovoltaic-thermal(PVT) hybrids]] | File:EDS_cover.png|link=[[:media:2012_case_for_OSAT.pdf]]|[[:media:2012_case_for_OSAT.pdf|The Case for Open Source Appropriate Technology]] | ||
File:Lidar.png|[[Using LiDAR to assess rooftop solar photovoltaic potential on a large scale]] | File:Spikeanneal.png|link=[[Amorphous silicon Photovoltaic-thermal(PVT) hybrids]]|[[Amorphous silicon Photovoltaic-thermal(PVT) hybrids]] | ||
File:Osotf.png|[[Open solar photovoltaic systems optimization]] | File:Lidar.png|link=[[Using LiDAR to assess rooftop solar photovoltaic potential on a large scale]]|[[Using LiDAR to assess rooftop solar photovoltaic potential on a large scale]] | ||
File:Shading example.png|[[Shading losses in solar photovoltaic potential at the municipal scale]] | File:Osotf.png|link=[[Open solar photovoltaic systems optimization]]|[[Open solar photovoltaic systems optimization]] | ||
File:Sodis.jpg|[[Decreasing turbidity to optimize solar water disinfection]] | File:Shading example.png|link=[[Shading losses in solar photovoltaic potential at the municipal scale]]|[[Shading losses in solar photovoltaic potential at the municipal scale]] | ||
File:Hxclose.png|[[Expanded microchannel heat exchanger]] | File:Sodis.jpg|link=[[Decreasing turbidity to optimize solar water disinfection]]|[[Decreasing turbidity to optimize solar water disinfection]] | ||
File:Cher.png|[[Limitations of nuclear power as a sustainable energy source]] | File:Hxclose.png|link=[[Expanded microchannel heat exchanger]]|[[Expanded microchannel heat exchanger]] | ||
File:Sci-net.png|[[Design and implementation of mobile educational games]] | File:Cher.png|link=[[Limitations of nuclear power as a sustainable energy source]]|[[Limitations of nuclear power as a sustainable energy source]] | ||
File:Sci-net.png|link=[[Design and implementation of mobile educational games]]|[[Design and implementation of mobile educational games]] | |||
</gallery> | </gallery> | ||
[[Category:MOST]] | [[Category:MOST]] |
Latest revision as of 10:23, 12 June 2024
This category lists completed projects for the Category:MOST. Following the individual links leads to a summary of the project and key findings, related literature reviews, methods, protocols, and equipment, and an open access version of the paper published in a peer reviewed journal.
2021 Completed Projects & Publications
2021 Popular Audience Articles
2020 Completed Projects & Publications
2020 Popular Audience Articles
2019 Completed Projects & Publications
2019 Popular Audience Articles
2018 Completed Projects & Publications
2018 Popular Audience Articles
2017 Completed Projects & Publications
2017 Popular Audience Articles
2016 Completed Projects and Publications
2016 Popular Audience Articles
-
[hhttps://web.archive.org/web/20201028204738/https://www.journals.elsevier.com/hardwarex/news/greetings-from-the-editor-in-chief-of-hardwarex Greetings from the Editor-in-Chief of HardwareX]
2015 Completed Projects and Publications
2015 Popular Audience Articles
2014 Completed Projects and Publications
2013 Completed Projects and Publications
2011-2012 Completed Projects and Publications
Subcategories
This category has only the following subcategory.
O
Pages in category "MOST completed projects and publications"
The following 200 pages are in this category, out of 556 total.
(previous page) (next page)3
- 3D printable OSAT gallery
- 3D printable OSAT gallery/zh
- 3D printable Polymer Pelletizer Chopper for Fused Granular Fabrication-Based Additive Manufacturing
- 3D printable Polymer Pelletizer Chopper for Fused Granular Fabrication-Based Additive Manufacturing/ar
- 3D printable Polymer Pelletizer Chopper for Fused Granular Fabrication-Based Additive Manufacturing/es
- 3D printable Polymer Pelletizer Chopper for Fused Granular Fabrication-Based Additive Manufacturing/fr
- 3D printable Polymer Pelletizer Chopper for Fused Granular Fabrication-Based Additive Manufacturing/ru
- 3D printed click-MUAC bands
- 3D printed click-MUAC bands/zh
- 3D printed dual axis gimbal system
- 3D printed dual axis gimbal system/ru
- 3D printed magnetic soft magnetic helical coil actuators of iron oxide embedded polydimethylsiloxane
- 3D printed photovoltaic module spacer
- 3D printed photovoltaic module spacer/es
- 3D printed solar photovoltaic racking
- 3D printed solar photovoltaic racking/de
- 3D printed solar photovoltaic racking/es
- 3D printed solar photovoltaic racking/ru
- 3D printed solar photovoltaic racking/zh
A
- A Case for Weakening Patent Rights
- A First Investigation of Agriculture Sector Perspectives on the Opportunities and Barriers for Agrivoltaics
- A National Pragmatic Safety Limit for Nuclear Weapon Quantities
- A new method of preparing highly conductive ultra-thin indium tin oxide for plasmonic-enhanced thin film solar photovoltaic devices
- A new method to determine the effects of hydrodynamic surface coatings on the snow shedding effectiveness of solar photovoltaic modules
- A new model for enabling innovation in appropriate technology for sustainable development
- A novel approach to obviousness: An algorithm for identifying prior art concerning 3-D printing materials
- A novel synthesis of tin oxide thin films by the sol-gel process for optoelectronic applications
- A Review of Greenhouse Gas Emission Liabilities as the Value of Renewable Energy for Mitigating Lawsuits for Climate Change Related Damages
- A review of open source ventilators for COVID-19 and future pandemics
- A review of technical requirements for plug-and-play solar photovoltaic microinverter systems in the United States
- A review of the value of solar methodology with a case study of the U.S. VOS
- A review of the value of solar methodology with a case study of the U.S. VOS/tr
- A Virtual Educational Exchange: A North-South Virtually-Shared Class on Sustainable Development
- Additively Manufactured Parametric Universal Clip-System: An Open Source Approach for Aiding Personal Exposure Measurement in the Breathing Zone
- Additively Manufactured Parametric Universal Clip-System: An Open Source Approach for Aiding Personal Exposure Measurement in the Breathing Zone/th
- Advances in plasmonic light trapping in thin-film solar photovoltaic devices
- Agrivoltaic potential on grape farms in India
- Aligning executive incentives with global public health goals
- ALLFED
- ALLFED/es
- ALLFED/ru
- Template:Alt-food
- Alternative Foods as a Solution to Global Food Supply Catastrophes
- Alternative Foods as a Solution to Global Food Supply Catastrophes/es
- Alternative Foods as a Solution to Global Food Supply Catastrophes/zh
- Ambiance-dependent Agglomeration and Surface-enhanced Raman Spectroscopy Response of Self-assembled Silver Nano-particles for Plasmonic Photovoltaic Devices
- Analytical Model for the Optical Functions of Indium Gallium Nitride with Application to Thin Film Solar Photovoltaic Cells
- Anisotropic mechanical property variance between ASTM D638-14 type I and type IV fused filament fabricated specimens
- Antibacterial and anticancer activity of hydrothermally-synthesized zinc oxide nanomaterials using natural extracts of neem, pepper and turmeric as solvent media
- Applications of Open Source 3-D Printing on Small Farms
- Applications of Open Source 3-D Printing on Small Farms/fr
- Applications of Open Source GMAW-Based Metal 3-D Printing
- Applications of Open Source GMAW-Based Metal 3-D Printing/fr
- Applications of Open Source GMAW-Based Metal 3-D Printing/it
- Applications of Open Source GMAW-Based Metal 3-D Printing/zh
- Applying a Relationally and Socially Embedded Decision Framework to Solar Photovoltaic Adoption: A Conceptual Exploration
- Approaches to Open Source 3-D Printable Probe Positioners and Micromanipulators for Probe Stations
- Approaches to Open Source 3-D Printable Probe Positioners and Micromanipulators for Probe Stations/ru
- Aquavoltaics: Synergies for dual use of water area for solar photovoltaic electricity generation and aquaculture
- Aquavoltaics: Synergies for dual use of water area for solar photovoltaic electricity generation and aquaculture/vi
- Atomic layer deposited aluminium oxide mitigates outgassing from fused filament fabrication–based 3-D printed components
- Automated quantification of solar photovoltaic potential in cities
B
- Barriers to Appropriate Technology Growth in Sustainable Development
- Barriers to Appropriate Technology Growth in Sustainable Development/id
- Belt-Driven Open Source Circuit Mill Using Low-Cost 3-D Printer Components
- Belt-Driven Open Source Circuit Mill Using Low-Cost 3-D Printer Components/es
- Bridging the Social and Environmental Dimensions of Global Sustainability in STEM Education with Additive Manufacturing
- Building Open Source Hardware in Academia
- Building Open Source Hardware in Academia/zh
- Building research equipment with free, open-source hardware
- Building research equipment with free, open-source hardware/es
- Building research equipment with free, open-source hardware/ru
C
- Chemical Compatibility of Fused Filament Fabrication-based 3-D Printed Components with Solutions Commonly Used in Semiconductor Wet Processing
- Chemical Synthesis and Characterization of Nano Alumina, Nano Composite of Carbon–Alumina and Their Comparative Studies
- Coal with Carbon Capture and Sequestration is not as Land Use Efficient as Solar Photovoltaic Technology for Climate Neutral Electricity Production
- Compatibility of 3-D printed devices in cleanroom environments for semiconductor processing
- Compatibility of 3-D printed devices in cleanroom environments for semiconductor processing/it
- Conceptual Design and Rationale for a New Agrivoltaics Concept: Pasture-Raised Rabbits and Solar Farming
- Controlling optical absorption in metamaterial absorbers for plasmonic solar cells
- Conversion of Self-Contained Breathing Apparatus Mask to Open Source Powered Air-Purifying Particulate Respirator for Fire Fighter COVID-19 Response
- Conversion of Self-Contained Breathing Apparatus Mask to Open Source Powered Air-Purifying Particulate Respirator for Fire Fighter COVID-19 Response/ko
- Corn sheller
- Corn sheller/cs
- Corn sheller/fr
- Cost-effectiveness of interventions for alternate food in the United States to address agricultural catastrophes
- Cost-effectiveness of interventions for alternate food in the United States to address agricultural catastrophes/es
- Cost-effectiveness of interventions for alternate food in the United States to address agricultural catastrophes/zh
- Cost-Effectiveness of Interventions for Alternate Food to Address Agricultural Catastrophes Globally
- Could 79 People Solarize the U.S. Electric Grid?
- Código abierto Impresora 3-D para Metales
- Código abierto Impresora 3-D para Metales/fr
- Código abierto Impresora 3-D para Metales/pt
D
- Decarbonizing the boardroom? Aligning electric utility executive compensation with climate change incentives
- Decentralized Renewable Hybrid Mini-Grids for Rural Communities: Culmination of the IREP Framework and Scale up to Urban Communities
- Decreasing turbidity to optimize solar water disinfection
- Decreasing turbidity to optimize solar water disinfection/ko
- Defense for Covert Administrative Techniques for Neutralizing American Highly Qualified Personnel
- Democratising design in scientific innovation: application of an open value network to open source hardware design
- Demonstration of a simple encapsulation technique for prototype silicon solar cells
- Demonstration of a simple encapsulation technique for prototype silicon solar cells/fr
- Demonstration of the integrated rural energy planning framework for sustainable energy development in low-income countries: Case studies of rural communities in Nigeria
- Demonstration of the integrated rural energy planning framework for sustainable energy development in low-income countries: Case studies of rural communities in Nigeria/ar
- Design and Testing of a Low-Cost, Open Source, 3-D Printed Air-Bearing-Based Attitude Simulator for CubeSat Satellites
- Design of Multi-Junction Photovoltaic Cells Optimized for Varied Atmospheric Conditions
- Design of Post-Consumer Modification of Standard Solar Modules to Form Large-Area Building-Integrated Photovoltaic Roof Slates
- Design Optimization of Polymer Heat Exchanger for Automated Household-Scale Solar Water Pasteurizer
- Detecting Covert Legal Killing to Stop A New Approach to Terrorist Intention
- Development of a Resilient 3-D Printer for Humanitarian Crisis Response
- Development of a Resilient 3-D Printer for Humanitarian Crisis Response/fr
- Development of a Resilient 3-D Printer for Humanitarian Crisis Response/ru
- Development of a Resilient 3-D Printer for Humanitarian Crisis Response/zh
- Differences in Snow Shedding in Photovoltaic Systems with Framed and Frameless Modules
- Distributed manufacturing of after market flexible floating photovoltaic modules
- Distributed Manufacturing of Flexible Products- Technical Feasibility and Economic Viability
- Distributed manufacturing with 3-D printing: a case study of recreational vehicle solar photovoltaic mounting systems
- Distributed recycling of post-consumer plastic waste in rural areas
- Distributed recycling of post-consumer plastic waste in rural areas/fr
- Dual morphology titanium dioxide for dye sensitized solar cells
E
- Economic Advantages of Dry-Etched Black Silicon in Passivated Emitter Rear Cell (PERC) Photovoltaic Manufacturing
- Economic impact of substituting solar photovoltaic electric production for tobacco farming
- Economic Potential for Distributed Manufacturing of Adaptive Aids for Arthritis Patients in the U.S.
- Economic Savings for Scientific Free and Open Source Technology: A Review
- Economic viability of captive off-grid solar photovoltaic and diesel hybrid energy systems for the Nigerian private sector
- Economics of Grid-Tied Solar Photovoltaic Systems Coupled to Heat Pumps: The Case of Northern Climates of the U.S. and Canada
- Educational Pathways to Remote Employment in Isolated Communities
- Effect of ambient combinations of argon, oxygen, and hydrogen on the properties of DC magnetron sputtered indium tin oxide films
- Effect of microwave power irradiation on TiO2 nano-structures and binder free paste screen printed dye sensitized solar cells
- Effects of silver catalyst concentration in metal assisted chemical etching of silicon
- Effects of spectral albedo on solar photovoltaic devices
- Electric Vehicle Charging Potential from Retail Parking Lot Solar Photovoltaic Awnings
- Emergence of Home Manufacturing in the Developed World: Return on Investment for Open-Source 3-D Printers
- Emerging Business Models for Open Source Hardware
- Energy Payback Time of a Solar Photovoltaic Powered Waste Plastic Recyclebot System
- Enhancement of hydrogenated amorphous silicon solar cells with front-surface hexagonal plasmonic arrays from nanoscale lithography
- Environmental impacts of distributed manufacturing from 3-D printing of polymer components and products
- Environmental impacts of distributed manufacturing from 3-D printing of polymer components and products/pt
- Environmental life cycle analysis of distributed 3-D printing and conventional manufacturing of polymer products
- Evaluating the Geographic Viability of the Solar Water Disinfection (SODIS) Method by Decreasing Turbidity with NaCl: A Case Study of South Sudan
- Evaluation of lab performance of stamp sand and acrylonitrile styrene acrylate waste composites without asphalt as road surface materials
- Evaluation of Potential Fair Trade Standards for an Ethical 3-D Printing Filament
- Evaluation of Potential Fair Trade Standards for an Ethical 3-D Printing Filament/fr
- Evaluation of RepRap 3D Printer Workshops in K-12 STEM
- Exchanging Ohmic losses in metamaterial absorbers with useful optical absorption for photovoltaics
- Expanding the Consumer Bill of Rights for material ingredients
- Experimental Characterization of Heat Transfer in an Additively Manufactured Polymer Heat Exchanger
F
- Fabricating Ordered 2-D Nano-Structured Arrays Using Nanosphere Lithography
- Factors effecting real-time optical monitoring of fused filament 3D printing
- Feeding Everyone if Industry is Disabled
- Feeding Everyone if the Sun is Obscured and Industry is Disabled
- Feeding Everyone if the Sun is Obscured and Industry is Disabled/es
- Feeding Everyone: Solving the Food Crisis in Event of Global Catastrophes that Kill Crops or Obscure the Sun
- Feeding Everyone: Solving the Food Crisis in Event of Global Catastrophes that Kill Crops or Obscure the Sun/ru
- Finding Ideal Parameters for Recycled Material Fused Particle Fabrication-Based 3D Printing Using an Open Source Software Implementation of Particle Swarm Optimization
- FitWorld board game
- Food without sun: Price and life-saving potential
- Free and Open Source 3-D Model Customizer for Websites to Democratize Design with OpenSCAD
- Free and Open Source 3-D Model Customizer for Websites to Democratize Design with OpenSCAD/es
- Free and open-source automated 3-D microscope
- Free and open-source automated 3-D microscope/es
- Free and open-source automated 3-D microscope/fr
- Free and open-source automated 3-D microscope/ru
- Free and open-source automated 3-D microscope/zh
- Free and Open-source Control Software for 3-D Motion and Processing
- From Open Access to Open Science: The Path From Scientific Reality to Open Scientific Communication
- From Open Access to Open Science: The Path From Scientific Reality to Open Scientific Communication/es
- Fused Particle Fabrication 3-D Printing: Recycled Materials' Optimization and Mechanical Properties
- Fused Particle Fabrication 3-D Printing: Recycled Materials' Optimization and Mechanical Properties/es
- Fused Particle Fabrication 3-D Printing: Recycled Materials' Optimization and Mechanical Properties/fr
- Fused Particle Fabrication 3-D Printing: Recycled Materials' Optimization and Mechanical Properties/hu
- Fused Particle Fabrication 3-D Printing: Recycled Materials' Optimization and Mechanical Properties/ru
G
- General Design Procedure for Free and Open-Source Hardware for Scientific Equipment
- General Design Procedure for Free and Open-Source Hardware for Scientific Equipment/ar
- General Design Procedures for Airport-Based Solar Photovoltaic Systems
- Global distribution of forest classes and leaf biomass for use as alternative foods to minimize malnutrition
- Global distribution of forest classes and leaf biomass for use as alternative foods to minimize malnutrition/ru
- Global value chains from a 3D printing perspective
- Green Fab Lab Applications of Large-Area Waste Polymer-based Additive Manufacturing
- Green Fab Lab Applications of Large-Area Waste Polymer-based Additive Manufacturing/fr
H
- Hangprinter for Large Scale Additive Manufacturing using Fused Particle Fabrication with Recycled Plastic and Continuous Feeding
- Hangprinter for Large Scale Additive Manufacturing using Fused Particle Fabrication with Recycled Plastic and Continuous Feeding/ru
- High-Efficiency Solar-Powered 3-D Printers for Sustainable Development
- High-Efficiency Solar-Powered 3-D Printers for Sustainable Development/fr
- How Easy is it to Feed Everyone? Economic Alternatives to Eliminate Human Nutrition Deficits
- How Easy is it to Feed Everyone? Economic Alternatives to Eliminate Human Nutrition Deficits/es
- How to perform a literature review with free and open source software
- How to perform a literature review with free and open source software/vi
- Hypoeutectic Aluminum–Silicon Alloy Development for GMAW-Based 3-D Printing Using Wedge Castings
I
- Image Analysis Method for Quantifying Snow Losses on PV Systems
- Impact of DIY Home Manufacturing with 3D Printing on the Toy and Game Market
- Impact of Snow and Ground Interference on Photovoltaic Electric System Performance
- Implementing Self-Replicating Rapid Prototypers (RepRaps) into a Mechanical\Manufacturing Program
- Improved model and experimental validation of deformation in fused filament fabrication of polylactic acid
- Improving recyclebot concepts
- Improving recyclebot concepts/fr
- Improving recyclebot concepts/ru
- In Situ Formation of Substrate Release Mechanisms for Gas Metal Arc Weld Metal 3-D Printing
- Influence of metal assisted chemical etching time period on mesoporous structure in as-cut upgraded metallurgical grade silicon for solar cell application
- Influence of Oxygen Concentration on the Performance of Ultra-Thin RF Magnetron Sputter Deposited Indium Tin Oxide Films as a Top Electrode for Photovoltaic Devices
- Inhibition of growth of S. epidermidis by hydrothermally synthesized ZnO nanoplates
- Innovation through collaboration: scaling up solutions for sustainable development