27 August 2023
- 08:3908:39, 27 August 2023 diff hist +9 User:Agorantl →Softwares & Tools Used Tag: Visual edit
- 08:3608:36, 27 August 2023 diff hist +21 User:Agorantl →Professional Affiliations Tag: Visual edit: Switched
30 April 2016
- 10:5410:54, 30 April 2016 diff hist +323 Designing of low-cost thermal way for Ni-rich Li-based layered NCM cathode material for Li-Ion Batteries →Thermodynamic and Kinetic studies
- 10:5410:54, 30 April 2016 diff hist +335 Designing of low-cost thermal way for Ni-rich Li-based layered NCM cathode material for Li-Ion Batteries →Thermodynamic and Kinetic studies
- 10:5310:53, 30 April 2016 diff hist +1,611 Designing of low-cost thermal way for Ni-rich Li-based layered NCM cathode material for Li-Ion Batteries →Thermodynamic and Kinetic studies
- 10:2010:20, 30 April 2016 diff hist +278 Designing of low-cost thermal way for Ni-rich Li-based layered NCM cathode material for Li-Ion Batteries →Thermodynamic and Kinetic studies
7 April 2016
- 06:4406:44, 7 April 2016 diff hist −2 Kirigami design approach to LCPV reflectors →Large Scale PV systems
- 06:4306:43, 7 April 2016 diff hist +325 Kirigami design approach to LCPV reflectors →Background
- 04:2304:23, 7 April 2016 diff hist −15 User:Agorantl →Softwares & Tools Used
- 04:1504:15, 7 April 2016 diff hist −10 User:Agorantl →IIT Bombay: Research Intern
30 March 2016
- 03:5503:55, 30 March 2016 diff hist −8 m Raspberry Pi No edit summary
24 March 2016
- 06:4006:40, 24 March 2016 diff hist +282 Designing of low-cost thermal way for Ni-rich Li-based layered NCM cathode material for Li-Ion Batteries →Why study xLiMO2.(1-x)Li2M′O3 ?
- 06:1606:16, 24 March 2016 diff hist 0 Designing of low-cost thermal way for Ni-rich Li-based layered NCM cathode material for Li-Ion Batteries /* [http://dx.doi.org/10.1021/cm702241a D. Zeng, J. Cabana, J. Bréger, W.-S. Yoon, and C. P. Grey, “Cation Ordering in Li[NixMnxCo(1–2x)]O2-Layered Cathode Materials: A Nuclear Magnetic Resonance (NMR), Pair Distribution Function, X-ray Absorption...
- 06:1506:15, 24 March 2016 diff hist +386 Designing of low-cost thermal way for Ni-rich Li-based layered NCM cathode material for Li-Ion Batteries →Thermodynamic and Kinetic studies
- 06:1206:12, 24 March 2016 diff hist +293 Designing of low-cost thermal way for Ni-rich Li-based layered NCM cathode material for Li-Ion Batteries →Synthesis and Characterization of various Li-Ni-Mn-Co oxide cathode materials
- 06:0606:06, 24 March 2016 diff hist +1,159 Designing of low-cost thermal way for Ni-rich Li-based layered NCM cathode material for Li-Ion Batteries →Synthesis and Characterization of various Li-Ni-Mn-Co oxide cathode materials
- 05:5605:56, 24 March 2016 diff hist +366 Designing of low-cost thermal way for Ni-rich Li-based layered NCM cathode material for Li-Ion Batteries →Synthesis and Characterization of various Li-Ni-Mn-Co oxide cathode materials
- 05:5405:54, 24 March 2016 diff hist +266 Designing of low-cost thermal way for Ni-rich Li-based layered NCM cathode material for Li-Ion Batteries →Background
- 05:5305:53, 24 March 2016 diff hist +611 Designing of low-cost thermal way for Ni-rich Li-based layered NCM cathode material for Li-Ion Batteries →Synthesis and Characterization of various Li-Ni-Mn-Co oxide cathode materials
- 05:3605:36, 24 March 2016 diff hist +447 Designing of low-cost thermal way for Ni-rich Li-based layered NCM cathode material for Li-Ion Batteries →Synthesis and Characterization of various Li-Ni-Mn-Co oxide cathode materials
- 05:2405:24, 24 March 2016 diff hist +332 Designing of low-cost thermal way for Ni-rich Li-based layered NCM cathode material for Li-Ion Batteries →Synthesis and Characterization of various Li-Ni-Mn-Co oxide cathode materials
- 05:1805:18, 24 March 2016 diff hist −2 Designing of low-cost thermal way for Ni-rich Li-based layered NCM cathode material for Li-Ion Batteries No edit summary
- 05:1705:17, 24 March 2016 diff hist −1 Designing of low-cost thermal way for Ni-rich Li-based layered NCM cathode material for Li-Ion Batteries →Background
- 05:1705:17, 24 March 2016 diff hist +317 Designing of low-cost thermal way for Ni-rich Li-based layered NCM cathode material for Li-Ion Batteries →Search List
- 05:1205:12, 24 March 2016 diff hist +1,858 Designing of low-cost thermal way for Ni-rich Li-based layered NCM cathode material for Li-Ion Batteries No edit summary
- 04:3004:30, 24 March 2016 diff hist +663 Designing of low-cost thermal way for Ni-rich Li-based layered NCM cathode material for Li-Ion Batteries →Thermodynamic and Kinetic studies
- 04:2504:25, 24 March 2016 diff hist −1 Designing of low-cost thermal way for Ni-rich Li-based layered NCM cathode material for Li-Ion Batteries /* [ http://www.nature.com/articles/srep04847 J.-K. Noh, S. Kim, H. Kim, W. Choi, W. Chang, D. Byun, B.-W. Cho, and K. Y. Chung, “Mechanochemical Synthesis of Li2MnO3 Shell/LiMO2 (M = Ni, Co, Mn) Core-Structured Nanocomposites for Lithium-Ion Batteri...
- 04:2404:24, 24 March 2016 diff hist +675 Designing of low-cost thermal way for Ni-rich Li-based layered NCM cathode material for Li-Ion Batteries →Thermodynamic and Kinetic studies
23 March 2016
- 17:5917:59, 23 March 2016 diff hist +16 User:Agorantl →Literature Review
- 17:5817:58, 23 March 2016 diff hist −16 User:Agorantl →Literature Review
22 March 2016
- 19:5019:50, 22 March 2016 diff hist +490 N Designing of low-cost thermal way for Ni-rich Li-based layered NCM cathode material for Li-Ion Batteries Created page with "='''''Search List'''''= ='''''Background'''''= ='''''Thermodynamic and Kinetic studies'''''= ====[http://pubs.rsc.org/en/content/articlelanding/2016/cp/c5cp07128c M. Dixit,..."
- 19:4619:46, 22 March 2016 diff hist +263 User:Agorantl No edit summary
11 February 2016
9 February 2016
- 23:5323:53, 9 February 2016 diff hist −58 User:Agorantl No edit summary
- 23:5223:52, 9 February 2016 diff hist +32 User:Agorantl →Future Goals
- 23:5123:51, 9 February 2016 diff hist +6 User:Agorantl →Softwares & Tools Used
- 23:5023:50, 9 February 2016 diff hist +14 User:Agorantl →Plot of the project
- 11:2811:28, 9 February 2016 diff hist +585 Kirigami design approach to LCPV reflectors /* R. W. Andrews, A. Pollard, and J. M. Pearce, “Photovoltaic system performance enhancement with non-tracking planar concentrators: Experimental results and BDRF based modelling,” in Photovoltaic Specialists Conference (PVSC), 2013 IEEE 39th, 201...
- 11:2811:28, 9 February 2016 diff hist +813 Kirigami design approach to LCPV reflectors →A. Lamoureux, K. Lee, M. Shlian, S. R. Forrest, and M. Shtein, “Dynamic kirigami structures for integrated solar tracking,” Nat Commun, vol. 6, p. 8092, Sep. 2015. doi:10.1038/ncomms9092
- 11:2311:23, 9 February 2016 diff hist +1,027 Kirigami design approach to LCPV reflectors /* T. C. Shyu, P. F. Damasceno, P. M. Dodd, A. Lamoureux, L. Xu, M. Shlian, M. Shtein, S. C. Glotzer, and N. A. Kotov, “A kirigami approach to engineering elasticity in nanocomposites through patterned defects,” Nat Mater, vol. 14, no. 8, pp. 785...
- 11:1911:19, 9 February 2016 diff hist +6,666 Kirigami design approach to LCPV reflectors No edit summary
- 11:1011:10, 9 February 2016 diff hist +5,460 Kirigami design approach to LCPV reflectors →Booster reflectors
- 11:0211:02, 9 February 2016 diff hist +14,740 Kirigami design approach to LCPV reflectors →Concept of Reflectors-Concentrators
- 10:3710:37, 9 February 2016 diff hist +5,633 Kirigami design approach to LCPV reflectors No edit summary
- 10:2410:24, 9 February 2016 diff hist −112 Kirigami design approach to LCPV reflectors →A. Rabl, “Solar concentrators with maximal concentration for cylindrical absorbers,” Applied Optics, vol. 15, no. 7, p. 1871, Jul. 1976. doi: 10.1364/AO.15.001871
- 10:2110:21, 9 February 2016 diff hist +474 Kirigami design approach to LCPV reflectors →A. Rabl, “Solar concentrators with maximal concentration for cylindrical absorbers,” Applied Optics, vol. 15, no. 7, p. 1871, Jul. 1976. doi: 10.1364/AO.15.001871
- 10:1910:19, 9 February 2016 diff hist +951 Kirigami design approach to LCPV reflectors →H. Tabor, “Stationary mirror systems for solar collectors,” Solar Energy, vol. 2, no. 3–4, pp. 27–33, Jul. 1958. doi:10.1016/0038-092X(58)90051-3
- 09:4709:47, 9 February 2016 diff hist +8 Kirigami design approach to LCPV reflectors →Graham P. Collins, “Kirigami and technology cut a fine figure, together,” Proceedings of the National Academy of Sciences, vol. 113, no. 2, pp. 240–241. doi:10.1073/pnas.1523311113
- 09:4609:46, 9 February 2016 diff hist −1 Kirigami design approach to LCPV reflectors →Graham P. Collins, “Kirigami and technology cut a fine figure, together,” Proceedings of the National Academy of Sciences, vol. 113, no. 2, pp. 240–241. doi:10.1073/pnas.1523311113
- 09:4409:44, 9 February 2016 diff hist −2 Kirigami design approach to LCPV reflectors →Concept of Reflectors-Concentrators