Design principles for solid-state lithium superionic conductors Y Wang, WD Richards, SP Ong, LJ Miara, JC Kim, Y Mo, G Ceder Nature materials 14 (10), 1026-1031, 2015 | 748 | 2015 |
Interface stability in solid-state batteries WD Richards, LJ Miara, Y Wang, JC Kim, G Ceder Chemistry of Materials 28 (1), 266-273, 2016 | 620 | 2016 |
Phase stability, electrochemical stability and ionic conductivity of the Li10±1MP2X12 (M= Ge, Si, Sn, Al or P, and X= O, S or Se) family of superionic conductors SP Ong, Y Mo, WD Richards, L Miara, HS Lee, G Ceder Energy & Environmental Science, 2013 | 434 | 2013 |
Enhanced chondrogenesis and Wnt signaling in PTH‐treated fractures S Kakar, TA Einhorn, S Vora, LJ Miara, G Hon, NA Wigner, D Toben, ... Journal of Bone and Mineral Research 22 (12), 1903-1912, 2007 | 228 | 2007 |
First-principles studies on cation dopants and electrolyte| cathode interphases for lithium garnets LJ Miara, WD Richards, YE Wang, G Ceder Chemistry of Materials 27 (11), 4040-4047, 2015 | 182 | 2015 |
Design and synthesis of the superionic conductor Na 10 SnP 2 S 12 WD Richards, T Tsujimura, LJ Miara, Y Wang, JC Kim, SP Ong, I Uechi, ... Nature communications 7 (1), 1-8, 2016 | 181 | 2016 |
Structural and Electrochemical Consequences of Al and Ga Cosubstitution in Li7La3Zr2O12 Solid Electrolytes D Rettenwander, G Redhammer, F Preishuber-Pflügl, L Cheng, L Miara, ... Chemistry of materials 28 (7), 2384-2392, 2016 | 157 | 2016 |
Effect of Rb and Ta Doping on the Ionic Conductivity and Stability of the Garnet Li7+2x–y(La3–xRbx)(Zr2–yTay)O12 (0 ≤ x ≤ 0.375, 0 ≤ y ≤ 1 … LJ Miara, SP Ong, Y Mo, WD Richards, Y Park, JM Lee, HS Lee, G Ceder Chemistry of Materials 25 (15), 3048-3055, 2013 | 155 | 2013 |
Understanding interface stability in solid-state batteries Y Xiao, Y Wang, SH Bo, JC Kim, LJ Miara, G Ceder Nature Reviews Materials 5 (2), 105-126, 2020 | 136 | 2020 |
Computational screening of cathode coatings for solid-state batteries Y Xiao, LJ Miara, Y Wang, G Ceder Joule 3 (5), 1252-1275, 2019 | 88 | 2019 |
About the compatibility between high voltage spinel cathode materials and solid oxide electrolytes as a function of temperature L Miara, A Windmüller, CL Tsai, WD Richards, Q Ma, S Uhlenbruck, ... ACS applied materials & interfaces 8 (40), 26842-26850, 2016 | 85 | 2016 |
Design of Li 1+ 2x Zn 1− x PS 4, a new lithium ion conductor WD Richards, Y Wang, LJ Miara, JC Kim, G Ceder Energy & Environmental Science 9 (10), 3272-3278, 2016 | 72 | 2016 |
Support device JM Riach US Patent 7,048,703, 2006 | 63 | 2006 |
Computational Prediction and Evaluation of Solid-State Sodium Superionic Conductors Na7P3X11 (X = O, S, Se) Y Wang, WD Richards, SH Bo, LJ Miara, G Ceder Chemistry of Materials 29 (17), 7475-7482, 2017 | 41 | 2017 |
Soft X-Ray Spectroscopic Study of Dense Strontium-Doped Lanthanum Manganite Cathodes for Solid Oxide Fuel Cell Applications LFJ Piper, ARH Preston, SW Cho, A DeMasi, B Chen, J Laverock, ... Journal of The Electrochemical Society 158 (2), B99-B105, 2011 | 36 | 2011 |
High Active Material Loading in All‐Solid‐State Battery Electrode via Particle Size Optimization T Shi, Q Tu, Y Tian, Y Xiao, LJ Miara, O Kononova, G Ceder Advanced Energy Materials 10 (1), 1902881, 2020 | 26 | 2020 |
Li-ion conductivity in Li 9 S 3 N LJ Miara, N Suzuki, WD Richards, Y Wang, JC Kim, G Ceder Journal of Materials Chemistry A 3 (40), 20338-20344, 2015 | 23 | 2015 |
Synthesis and Electrochemical Properties of I4̅-Type Li1+2xZn1–xPS4 Solid Electrolyte N Suzuki, WD Richards, Y Wang, LJ Miara, JC Kim, IS Jung, T Tsujimura, ... Chemistry of Materials 30 (7), 2236-2244, 2018 | 18 | 2018 |
Staging and In-Plane Superstructures Formed in Layered NaMO2 {M= Sc, Ti, V, Cr, Mn} during Na De-Intercalation: A Computational Study M Aryanpour, L Miara, YG Ryu Journal of the Electrochemical Society 162 (4), A511, 2015 | 11 | 2015 |
Hard X-ray fluorescence measurements of heteroepitaxial solid oxide fuel cell cathode materials JN Davis, LJ Miara, L Saraf, TC Kaspar, S Gopalan, UB Pal, JC Woicik, ... ECS Transactions 41 (11), 19, 2012 | 10 | 2012 |