The role of Al and Li concentration on the formation of cubic garnet solid electrolyte of nominal composition Li< sub> 7</sub> La< sub> 3</sub> Zr< sub> 2</sub> O< sub> 12</sub> E Rangasamy, J Wolfenstine, J Sakamoto Solid State Ionics 206, 28-32, 2012 | 651 | 2012 |
Effect of substitution (Ta, Al, Ga) on the conductivity of Li< sub> 7</sub> La< sub> 3</sub> Zr< sub> 2</sub> O< sub> 12</sub> JL Allen, J Wolfenstine, E Rangasamy, J Sakamoto Journal of Power Sources, 2012 | 520* | 2012 |
An Iodide-Based Li7P2S8I Superionic Conductor E Rangasamy, Z Liu, M Gobet, K Pilar, G Sahu, W Zhou, H Wu, ... Journal of the American Chemical Society 137 (4), 1384-1387, 2015 | 319 | 2015 |
Room temperature elastic moduli and Vickers hardness of hot-pressed LLZO cubic garnet JE Ni, ED Case, JS Sakamoto, E Rangasamy, JB Wolfenstine Journal of Materials Science 47, 7978-7985, 2012 | 296 | 2012 |
Synthesis and high Li-ion conductivity of Ga-stabilized cubic Li7La3Zr2O12 J Wolfenstine, J Ratchford, E Rangasamy, J Sakamoto, JL Allen Materials Chemistry and Physics 134 (2-3), 571-575, 2012 | 207 | 2012 |
High conductivity of dense tetragonal Li7La3Zr2O12 J Wolfenstine, E Rangasamy, JL Allen, J Sakamoto Journal of Power Sources 208, 193, 2012 | 174 | 2012 |
Excellent Stability of a Lithium‐Ion‐Conducting Solid Electrolyte upon Reversible Li+/H+ Exchange in Aqueous Solutions C Ma, E Rangasamy, C Liang, J Sakamoto, KL More, M Chi Angewandte Chemie International Edition 54 (1), 129-133, 2015 | 149 | 2015 |
The effect of 24c-site (A) cation substitution on the tetragonal–cubic phase transition in Li7− xLa3− xAxZr2O12 garnet-based ceramic electrolyte E Rangasamy, J Wolfenstine, J Allen, J Sakamoto Journal of Power Sources 230, 261-266, 2013 | 147 | 2013 |
Synthesis of nano-scale fast ion conducting cubic Li7La3Zr2O12 J Sakamoto, E Rangasamy, H Kim, Y Kim, J Wolfenstine Nanotechnology 24 (42), 424005, 2013 | 123 | 2013 |
Resolving the Grain Boundary and Lattice Impedance of Hot‐Pressed Li7La3Zr2O12 Garnet Electrolytes WE Tenhaeff, E Rangasamy, Y Wang, AP Sokolov, J Wolfenstine, ... ChemElectroChem 1 (2), 375-378, 2014 | 122 | 2014 |
Origin of High Li+ Conduction in Doped Li7La3Zr2O12 Garnets Y Chen, E Rangasamy, C Liang, K An Chemistry of Materials 27 (16), 5491-5494, 2015 | 121 | 2015 |
Mechanical properties of the solid Li-ion conducting electrolyte: Li0.33La0.57TiO3 YH Cho, J Wolfenstine, E Rangasamy, H Kim, H Choe, J Sakamoto Journal of Materials Science 47, 5970-5977, 2012 | 110 | 2012 |
A high conductivity oxide–sulfide composite lithium superionic conductor E Rangasamy, G Sahu, JK Keum, AJ Rondinone, NJ Dudney, C Liang Journal of Materials Chemistry A 2 (12), 4111-4116, 2014 | 95 | 2014 |
Pushing the Theoretical Limit of Li-CFx Batteries: A Tale of Bifunctional Electrolyte E Rangasamy, J Li, G Sahu, N Dudney, C Liang Journal of the American Chemical Society 136 (19), 6874-6877, 2014 | 76 | 2014 |
A high-conduction Ge substituted Li 3 AsS 4 solid electrolyte with exceptional low activation energy G Sahu, E Rangasamy, J Li, Y Chen, K An, N Dudney, C Liang Journal of Materials Chemistry A 2 (27), 10396-10403, 2014 | 75 | 2014 |
Methods of making and using oxide ceramic solids and products and devices related thereto J Sakamoto, E Rangasamy, H Kim, Y Kim, RP Maloney US Patent 9,093,717, 2015 | 69 | 2015 |
A study of suppressed formation of low-conductivity phases in doped Li 7 La 3 Zr 2 O 12 garnets by in situ neutron diffraction Y Chen, E Rangasamy, CR dela Cruz, C Liang, K An Journal of Materials Chemistry A 3 (45), 22868-22876, 2015 | 65 | 2015 |
Template-based methods of making and using ceramic solids J Sakamoto, T Thompson, E Rangasamy, DA Lynam US Patent 10,388,975, 2019 | 45 | 2019 |
Titelbild: Excellent Stability of a Lithium‐Ion‐Conducting Solid Electrolyte upon Reversible Li+/H+ Exchange in Aqueous Solutions (Angew. Chem. 1/2015) C Ma, E Rangasamy, C Liang, J Sakamoto, KL More, M Chi Angewandte Chemie 127 (1), 1-1, 2015 | 28 | 2015 |
Group administration of universal resource identifiers with members identified in search result C Ullmann, L Ullmann US Patent App. 10/388,975, 2004 | 26 | 2004 |