Porous hollow carbon@ sulfur composites for high‐power lithium–sulfur batteries N Jayaprakash, J Shen, SS Moganty, A Corona, LA Archer Angewandte Chemie-International Edition 50 (26), 5904, 2011 | 2236 | 2011 |
Ionic liquid-nanoparticle hybrid electrolytes and their application in secondary lithium-metal batteries. Y Lu, SK Das, SS Moganty, LA Archer Advanced Materials (Deerfield Beach, Fla.) 24 (32), 4430-4435, 2012 | 329 | 2012 |
Ionic-liquid-tethered nanoparticles: hybrid electrolytes SS Moganty, J Jayaprakash, JL Nugent, J Shen, LA Archer Wiley-Blackwell, 2010 | 190 | 2010 |
Nanoscale organic hybrid electrolytes JL Nugent, SS Moganty, LA Archer WILEY-V CH VERLAG GMBH, 2010 | 188 | 2010 |
Ionic liquid-nanoparticle hybrid electrolytes Y Lu, SS Moganty, JL Schaefer, LA Archer Journal of Materials Chemistry 22 (9), 4066-4072, 2012 | 169 | 2012 |
Ionic liquid-tethered nanoparticle suspensions: a novel class of ionogels SS Moganty, S Srivastava, Y Lu, JL Schaefer, SA Rizvi, LA Archer Chemistry of Materials 24 (7), 1386-1392, 2012 | 130 | 2012 |
Electrolytes for high-energy lithium batteries JL Schaefer, Y Lu, SS Moganty, P Agarwal, N Jayaprakash, LA Archer Applied Nanoscience 2, 91-109, 2012 | 124 | 2012 |
CO2/N2 separations using nanoporous alumina-supported ionic liquid membranes: Effect of the support on separation performance JJ Close, K Farmer, SS Moganty, RE Baltus Journal of membrane Science 390, 201-210, 2012 | 121 | 2012 |
Diffusivity of carbon dioxide in room-temperature ionic liquids SS Moganty, RE Baltus Industrial & engineering chemistry research 49 (19), 9370-9376, 2010 | 119 | 2010 |
Composite lithium battery anodes based on carbon@ Co3O4 nanostructures: synthesis and characterization N Jayaprakash, WD Jones, SS Moganty, LA Archer Journal of Power Sources 200, 53-58, 2012 | 111 | 2012 |
Regular solution theory for low pressure carbon dioxide solubility in room temperature ionic liquids: ionic liquid solubility parameter from activation energy of viscosity SS Moganty, RE Baltus Industrial & engineering chemistry research 49 (12), 5846-5853, 2010 | 103 | 2010 |
Nanoporous hybrid electrolytes JL Schaefer, SS Moganty, DA Yanga, LA Archer Journal of Materials Chemistry 21 (27), 10094-10101, 2011 | 89 | 2011 |
Tethered Molecular Sorbents: Enabling Metal‐Sulfur Battery Cathodes L Ma, H Zhuang, Y Lu, SS Moganty, RG Hennig, LA Archer Advanced Energy Materials 4 (17), 1400390, 2014 | 86 | 2014 |
Fabricating multifunctional nanoparticle membranes by a fast layer-by-layer Langmuir–Blodgett process: application in lithium–sulfur batteries MS Kim, L Ma, S Choudhury, SS Moganty, S Wei, LA Archer Journal of materials chemistry A 4 (38), 14709-14719, 2016 | 80 | 2016 |
Electrochemical windows and impedance characteristics of [Bmim+][BF4-] and [Bdmim+][BF4-] ionic liquids at the surfaces of Au, Pt, Ta and glassy carbon electrodes SS Moganty, RE Baltus, D Roy Chemical Physics Letters 483 (1-3), 90-94, 2009 | 75 | 2009 |
Upgrading carbonate electrolytes for ultra‐stable practical lithium metal batteries Q Zhao, NW Utomo, AL Kocen, S Jin, Y Deng, VX Zhu, S Moganty, ... Angewandte Chemie International Edition 61 (9), e202116214, 2022 | 63 | 2022 |
A Comparative Study of the Electrochemical Characteristics of [Emim+][BF4−] and [Bmim+][BF4−] Ionic Liquids at the Surfaces of Carbon Nanotube and Glassy … J Zheng, SS Moganty, PC Goonetilleke, RE Baltus, D Roy The Journal of Physical Chemistry C 115 (15), 7527-7537, 2011 | 54 | 2011 |
Structure–property relationships in transport and thermodynamic properties of imidazolium bistriflamide ionic liquids for CO2 capture SS Moganty, PS Chinthamanipeta, VK Vendra, S Krishnan, RE Baltus Chemical Engineering Journal 250, 377-389, 2014 | 38 | 2014 |
Characterization of copper chemical mechanical polishing (CMP) in nitric acid–hydrazine based slurry for microelectronic fabrication MS Sekhar, S Ramanathan Thin Solid Films 504 (1-2), 227-230, 2006 | 21 | 2006 |
Composite electrolyte including polymeric ionic liquid matrix and embedded nanoparticles, and method of making the same SS Moganty, J Lee US Patent 9,627,713, 2017 | 16 | 2017 |