Eric D. Wachsman
Eric D. Wachsman
Professor and Director, Maryland Energy Innovation Institute
Verified email at - Homepage
Cited by
Cited by
Lowering the temperature of solid oxide fuel cells
ED Wachsman, KT Lee
Science 334 (6058), 935-939, 2011
Negating interfacial impedance in garnet-based solid-state Li metal batteries
X Han, Y Gong, KK Fu, X He, GT Hitz, J Dai, A Pearse, B Liu, H Wang, ...
Nature materials 16 (5), 572-579, 2017
Flexible, solid-state, ion-conducting membrane with 3D garnet nanofiber networks for lithium batteries
KK Fu, Y Gong, J Dai, A Gong, X Han, Y Yao, C Wang, Y Wang, Y Chen, ...
Proceedings of the National Academy of Sciences 113 (26), 7094-7099, 2016
Toward garnet electrolyte–based Li metal batteries: An ultrathin, highly effective, artificial solid-state electrolyte/metallic Li interface
KK Fu, Y Gong, B Liu, Y Zhu, S Xu, Y Yao, W Luo, C Wang, SD Lacey, ...
Science Advances 3 (4), e1601659, 2017
Transition from superlithiophobicity to superlithiophilicity of garnet solid-state electrolyte
W Luo, Y Gong, Y Zhu, KK Fu, J Dai, SD Lacey, C Wang, B Liu, X Han, ...
Journal of the American Chemical Society 138 (37), 12258-12262, 2016
Conformal, nanoscale ZnO surface modification of garnet-based solid-state electrolyte for lithium metal anodes
C Wang, Y Gong, B Liu, K Fu, Y Yao, E Hitz, Y Li, J Dai, S Xu, W Luo, ...
Nano letters 17 (1), 565-571, 2017
Reducing interfacial resistance between garnet‐structured solid‐state electrolyte and Li‐metal anode by a germanium layer
W Luo, Y Gong, Y Zhu, Y Li, Y Yao, Y Zhang, K Fu, G Pastel, CF Lin, Y Mo, ...
Advanced Materials 29 (22), 1606042, 2017
Three-dimensional bilayer garnet solid electrolyte based high energy density lithium metal–sulfur batteries
KK Fu, Y Gong, GT Hitz, DW McOwen, Y Li, S Xu, Y Wen, L Zhang, ...
Energy & Environmental Science 10 (7), 1568-1575, 2017
Role of solid oxide fuel cells in a balanced energy strategy
ED Wachsman, CA Marlowe, KT Lee
Energy & Environmental Science 5 (2), 5498-5509, 2012
Three-dimensional reconstruction of porous LSCF cathodes
D Gostovic, JR Smith, DP Kundinger, KS Jones, ED Wachsman
Electrochemical and Solid State Letters 10 (12), B214, 2007
Mechanism of La0. 6Sr0. 4Co0. 2Fe0. 8O3 cathode degradation
D Oh, D Gostovic, ED Wachsman
Journal of Materials Research 27 (15), 1992-1999, 2012
Higher conductivity Sm3+ and Nd3+ co-doped ceria-based electrolyte materials
S Omar, ED Wachsman, JC Nino
Solid State Ionics 178 (37-38), 1890-1897, 2008
Defect equilibria and chemical expansion in non-stoichiometric undoped and gadolinium-doped cerium oxide
SR Bishop, KL Duncan, ED Wachsman
Electrochimica Acta 54 (5), 1436-1443, 2009
Chemical expansion: implications for electrochemical energy storage and conversion devices
SR Bishop, D Marrocchelli, C Chatzichristodoulou, NH Perry, ...
Annual Review of Materials Research 44, 205-239, 2014
Crystal structure–ionic conductivity relationships in doped ceria systems
S Omar, ED Wachsman, JL Jones, JC Nino
Journal of the American Ceramic Society 92 (11), 2674-2681, 2009
Garnet solid electrolyte protected Li-metal batteries
B Liu, Y Gong, K Fu, X Han, Y Yao, G Pastel, C Yang, H Xie, ...
ACS applied materials & interfaces 9 (22), 18809-18815, 2017
Hydrogen permeability of SrCe1− xMxO3− δ (x= 0.05, M= Eu, Sm)
SJ Song, ED Wachsman, J Rhodes, SE Dorris, U Balachandran
Solid State Ionics 167 (1-2), 99-105, 2004
A higher conductivity Bi2O3-based electrolyte
N Jiang, ED Wachsman, SH Jung
Solid State Ionics 150 (3-4), 347-353, 2002
Structural stability and conductivity of phase‐stabilized cubic bismuth oxides
N Jiang, ED Wachsman
Journal of the American Ceramic Society 82 (11), 3057-3064, 1999
Garnet-type solid-state electrolytes: materials, interfaces, and batteries
C Wang, K Fu, SP Kammampata, DW McOwen, AJ Samson, L Zhang, ...
Chemical reviews 120 (10), 4257-4300, 2020
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