Sagar Mitra
Sagar Mitra
Professor of Department of Energy Science and Engineering, Indian Institute of Technology
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High rate capabilities Fe 3 O 4-based Cu nano-architectured electrodes for lithium-ion battery applications
PL Taberna, S Mitra, P Poizot, P Simon, JM Tarascon
Nature materials 5 (7), 567-573, 2006
Growth and electrochemical characterization versus lithium of Fe3O4 electrodes made by electrodeposition
S Mitra, P Poizot, A Finke, JM Tarascon
Advanced Functional Materials 16 (17), 2281-2287, 2006
High-Rate and High-Energy-Density Lithium-Ion Battery Anode Containing 2D MoS2 Nanowall and Cellulose Binder
UK Sen, S Mitra
ACS applied materials & interfaces 5 (4), 1240-1247, 2013
High rate capability pure Sn-based nano-architectured electrode assembly for rechargeable lithium batteries
L Bazin, S Mitra, PL Taberna, P Poizot, M Gressier, MJ Menu, A Barnabé, ...
Journal of Power Sources 188 (2), 578-582, 2009
Exfoliated MoS 2 sheets and reduced graphene oxide-an excellent and fast anode for sodium-ion battery
TS Sahu, S Mitra
Scientific reports 5 (1), 1-13, 2015
Electrochemical capacitors with plasticized gel-polymer electrolytes
S Mitra, AK Shukla, S Sampath
Journal of power sources 101 (2), 213-218, 2001
Intermediate Phases in Sodium Intercalation into MoS2 Nanosheets and Their Implications for Sodium-Ion Battery
Q Li, Z Yao, J Wu, S Mitra, S Hao, TS Sahu, L Y, C Wolverton, VP Dravid
Nano Energy 38, 342–349, 2017
Tin sulfide (SnS) nanorods: structural, optical and lithium storage property study
AM Tripathi, S Mitra
Rsc Advances 4 (20), 10358-10366, 2014
An experimental and computational study to understand the lithium storage mechanism in molybdenum disulfide
UK Sen, P Johari, S Basu, C Nayak, S Mitra
Nanoscale 6 (17), 10243-10254, 2014
Improved electrochemical performance of SnO 2–mesoporous carbon hybrid as a negative electrode for lithium ion battery applications
NR Srinivasan, S Mitra, R Bandyopadhyaya
Physical Chemistry Chemical Physics 16 (14), 6630-6640, 2014
Electrochemical activity of α-MoO 3 nano-belts as lithium-ion battery cathode
UK Sen, S Mitra
Rsc Advances 2 (29), 11123-11131, 2012
Atomic layer deposited molybdenum nitride thin film: a promising anode material for Li ion batteries
DK Nandi, UK Sen, D Choudhury, S Mitra, SK Sarkar
ACS applied materials & interfaces 6 (9), 6606-6615, 2014
Sulfur copolymer: a new cathode structure for room-temperature sodium–sulfur batteries
A Ghosh, S Shukla, M Monisha, A Kumar, B Lochab, S Mitra
ACS Energy Letters 2 (10), 2478-2485, 2017
Excellent electrochemical performance of tin monosulphide (SnS) as a sodium-ion battery anode
PK Dutta, UK Sen, S Mitra
RSC Advances 4 (81), 43155-43159, 2014
Promoting effect of CeO2 in a Cu/CeO2 catalyst: lowering of redox potentials of Cu species in the CeO2 matrix
P Bera, S Mitra, S Sampath, MS Hegde
Chemical Communications, 927-928, 2001
High capacity lithium-ion battery cathode using LiV3O8 nanorods
S Sarkar, H Banda, S Mitra
Electrochimica Acta 99, 242-252, 2013
Atomic layer deposited MoS2 as a carbon and binder free anode in Li-ion battery
DK Nandi, UK Sen, D Choudhury, S Mitra, SK Sarkar
Electrochimica Acta 146, 706-713, 2014
Sustainable sulfur-rich copolymer/graphene composite as lithium-sulfur battery cathode with excellent electrochemical performance
A Ghosh, S Shukla, GS Khosla, B Lochab, S Mitra
Scientific reports 6 (1), 1-13, 2016
Cost-benefit analysis of different hydrogen production technologies using AHP and Fuzzy AHP
SK Thengane, A Hoadley, S Bhattacharya, S Mitra, S Bandyopadhyay
International journal of hydrogen energy 39 (28), 15293-15306, 2014
Intercalation anode material for lithium ion battery based on molybdenum dioxide
U Kumar Sen, A Shaligram, S Mitra
ACS applied materials & interfaces 6 (16), 14311-14319, 2014
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