Design principles for electrolytes and interfaces for stable lithium-metal batteries MD Tikekar, S Choudhury, Z Tu, LA Archer Nature Energy 1 (9), 1-7, 2016 | 1272 | 2016 |
Cryo-STEM mapping of solid–liquid interfaces and dendrites in lithium-metal batteries MJ Zachman, Z Tu, S Choudhury, LA Archer, LF Kourkoutis Nature 560 (7718), 345-349, 2018 | 539 | 2018 |
Molecular design for electrolyte solvents enabling energy-dense and long-cycling lithium metal batteries Z Yu, H Wang, X Kong, W Huang, Y Tsao, DG Mackanic, K Wang, X Wang, ... Nature Energy 5 (7), 526-533, 2020 | 464 | 2020 |
A stable room-temperature sodium–sulfur battery S Wei, S Xu, A Agrawral, S Choudhury, Y Lu, Z Tu, L Ma, LA Archer Nature communications 7 (1), 11722, 2016 | 455 | 2016 |
A highly reversible room-temperature lithium metal battery based on cross-linked hairy nanoparticles S Choudhury, S Choudhury Rational design of nanostructured polymer electrolytes and solid–liquid …, 2019 | 408 | 2019 |
Fast ion transport at solid–solid interfaces in hybrid battery anodes Z Tu, S Choudhury, MJ Zachman, S Wei, K Zhang, LF Kourkoutis, ... Nature Energy 3 (4), 310-316, 2018 | 390 | 2018 |
Lithium fluoride additives for stable cycling of lithium batteries at high current densities S Choudhury, S Choudhury Rational Design of Nanostructured Polymer Electrolytes and Solid–Liquid …, 2019 | 291 | 2019 |
Designing solid-liquid interphases for sodium batteries S Choudhury, S Wei, Y Ozhabes, D Gunceler, MJ Zachman, Z Tu, JH Shin, ... Nature communications 8 (1), 898, 2017 | 277 | 2017 |
Regulating electrodeposition morphology of lithium: towards commercially relevant secondary Li metal batteries J Zheng, MS Kim, Z Tu, S Choudhury, T Tang, LA Archer Chemical Society Reviews 49 (9), 2701-2750, 2020 | 258 | 2020 |
Highly stable sodium batteries enabled by functional ionic polymer membranes S Wei, S Choudhury, J Xu, P Nath, Z Tu, LA Archer Advanced Materials 29 (12), 1605512, 2017 | 207 | 2017 |
Designing artificial solid-electrolyte interphases for single-ion and high-efficiency transport in batteries Z Tu, S Choudhury, MJ Zachman, S Wei, K Zhang, LF Kourkoutis, ... Joule 1 (2), 394-406, 2017 | 202 | 2017 |
Building organic/inorganic hybrid interphases for fast interfacial transport in rechargeable metal batteries Q Zhao, Z Tu, S Wei, K Zhang, S Choudhury, X Liu, LA Archer Angewandte Chemie 130 (4), 1004-1008, 2018 | 190 | 2018 |
Solid-state polymer electrolytes for high-performance lithium metal batteries S Choudhury, S Stalin, D Vu, A Warren, Y Deng, P Biswal, LA Archer Nature communications 10 (1), 4398, 2019 | 156 | 2019 |
Design principles of functional polymer separators for high‐energy, metal‐based batteries W Zhang, Z Tu, J Qian, S Choudhury, LA Archer, Y Lu Small 14 (11), 1703001, 2018 | 154 | 2018 |
Electroless formation of hybrid lithium anodes for fast interfacial ion transport S Choudhury, Z Tu, S Stalin, D Vu, K Fawole, D Gunceler, ... Angewandte Chemie International Edition 56 (42), 13070-13077, 2017 | 149 | 2017 |
Electronic and chemical properties of germanene: the crucial role of buckling A Nijamudheen, R Bhattacharjee, S Choudhury, A Datta The Journal of Physical Chemistry C 119 (7), 3802-3809, 2015 | 136 | 2015 |
Electrochemical interphases for high-energy storage using reactive metal anodes S Wei, S Choudhury, Z Tu, K Zhang, LA Archer Accounts of chemical research 51 (1), 80-88, 2018 | 134 | 2018 |
Nucleation and early stage growth of Li electrodeposits P Biswal, S Stalin, A Kludze, S Choudhury, LA Archer Nano letters 19 (11), 8191-8200, 2019 | 133 | 2019 |
Electrolytic vascular systems for energy-dense robots CA Aubin, S Choudhury, R Jerch, LA Archer, JH Pikul, RF Shepherd Nature 571 (7763), 51-57, 2019 | 122 | 2019 |
Nanoporous hybrid electrolytes for high‐energy batteries based on reactive metal anodes Z Tu, MJ Zachman, S Choudhury, S Wei, L Ma, Y Yang, LF Kourkoutis, ... Advanced Energy Materials 7 (8), 1602367, 2017 | 118 | 2017 |