|Large-scale synthesis of highly uniform Fe1− xS nanostructures as a high-rate anode for sodium ion batteries|
L Li, S Peng, N Bucher, HY Chen, N Shen, A Nagasubramanian, E Eldho, ...
Nano energy 37, 81-89, 2017
|Li-ion vs. Na-ion capacitors: A performance evaluation with coconut shell derived mesoporous carbon and natural plant based hard carbon|
S Jayaraman, A Jain, M Ulaganathan, E Edison, MP Srinivasan, ...
Chemical Engineering Journal 316, 506-513, 2017
|Two Dimensional TiS2 as a Promising Insertion Anode for Na‐Ion Battery|
A Chaturvedi, E Edison, N Arun, P Hu, C Kloc, V Aravindan, S Madhavi
ChemistrySelect 3 (2), 524-528, 2018
|Melt-spun Fe–Sb intermetallic alloy anode for performance enhanced sodium-ion batteries|
E Edison, S Sreejith, S Madhavi
ACS applied materials & interfaces 9 (45), 39399-39406, 2017
|Nanostructured intermetallic FeSn2-carbonaceous composites as highly stable anode for Na-ion batteries|
E Edison, R Satish, WC Ling, N Bucher, V Aravindan, S Madhavi
Journal of Power Sources 343, 296-302, 2017
|Beyond intercalation based sodium-ion batteries: the role of alloying anodes, efficient sodiation mechanisms and recent progress|
E Edison, S Sreejith, CT Lim, S Madhavi
Sustainable Energy & Fuels 2 (12), 2567-2582, 2018
|Polymeric nanomaterials based on the buckybowl motif: Synthesis through ring-opening metathesis polymerization and energy storage applications|
A Mishra, M Ulaganathan, E Edison, P Borah, A Mishra, S Sreejith, ...
ACS Macro Letters 6 (11), 1212-1216, 2017
|Amorphous vanadium oxide thin films as stable performing cathodes of lithium and sodium-ion batteries|
S Petnikota, R Chua, Y Zhou, E Edison, M Srinivasan
Nanoscale research letters 13 (1), 363, 2018
|Highly Stable Intermetallic FeSn2‐Graphite Composite Anode for Sodium‐Ion Batteries|
E Edison, WC Ling, V Aravindan, S Madhavi
ChemElectroChem 4 (8), 1932-1936, 2017
|Route of irreversible transformation in layered tin thiophosphite and enhanced lithium storage performance|
E Edison, A Chaturvedi, H Ren, S Sreejith, CT Lim, S Madhavi
ACS Applied Energy Materials 1 (10), 5772-5778, 2018
|Microstructurally engineered nanocrystalline Fe–Sn–Sb anodes: towards stable high energy density sodium-ion batteries|
E Edison, S Sreejith, H Ren, CT Lim, S Madhavi
Journal of Materials Chemistry A 7 (23), 14145-14152, 2019
|Surface-Modified Hollow Ternary NiCo2Px Catalysts for Efficient Electrochemical Water Splitting and Energy Storage|
V Jose, E Edison, WW Manalastas Jr, S Sreejith, JM Vianney Nsanzimana, ...
ACS applied materials & interfaces 11 (43), 39798-39808, 2019
|Green Synthesis of a Nanocrystalline Tin Disulfide-Reduced Graphene Oxide Anode from Ammonium Peroxostannate: a Highly Stable Sodium-Ion Battery Anode|
AA Mikhaylov, AG Medvedev, DA Grishanov, E Edison, M Srinivasan, ...
ACS Sustainable Chemistry & Engineering 8 (14), 5485-5494, 2020
|Electrochemically Induced Amorphization and Unique Lithium and Sodium Storage Pathways in FeSbO4 Nanocrystals|
E Edison, PK Gogoi, Y Zheng, S Sreejith, SJ Pennycook, CT Lim, ...
ACS applied materials & interfaces 11 (22), 20082-20090, 2019
|Electrochemical deposition of highly porous reduced graphene oxide electrodes for Li-ion capacitors|
Y Zhan, E Edison, W Manalastas, MRJ Tan, R Satish, A Buffa, S Madhavi, ...
Electrochimica Acta 337, 135861, 2020
|Investigation of tin and antimony based anodes with enhanced cycle life for sodium-ion batteries|
Nanyang Technological University, 2019