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Xuan Zhao
Xuan Zhao
Mechanical Engineering, University of Texas at Austin
Verified email at utexas.edu
Title
Cited by
Cited by
Year
Corrosion resistance and surface biocompatibility of a microarc oxidation coating on a Mg–Ca alloy
XN Gu, N Li, WR Zhou, YF Zheng, X Zhao, QZ Cai, L Ruan
Acta Biomaterialia 7 (4), 1880-1889, 2011
4372011
Stabilizing Nanostructured Solid Oxide Fuel Cell Cathode with Atomic Layer Deposition
Y Gong, D Palacio, X Song, RL Patel, X Liang, X Zhao, JB Goodenough, ...
Nano letters 13 (9), 4340-4345, 2013
1922013
A novel solid oxide redox flow battery for grid energy storage
N Xu, X Li, X Zhao, JB Goodenough, K Huang
Energy & Environmental Science 4 (12), 4942-4946, 2011
1832011
Energy storage characteristics of a new rechargeable solid oxide iron–air battery
X Zhao, N Xu, X Li, Y Gong, K Huang
RSC Advances 2 (27), 10163-10166, 2012
882012
Performance of solid oxide iron-air battery operated at 550 C
X Zhao, Y Gong, X Li, N Xu, K Huang
Journal of The Electrochemical Society 160 (8), A1241, 2013
632013
p–n Heterojunction on Ordered ZnO Nanowires/Polyaniline Microrods Double Array
Q Tang, L Lin, X Zhao, K Huang, J Wu
Langmuir 28 (8), 3972-3978, 2012
602012
An All‐Ceramic Solid‐State Rechargeable Na+‐Battery Operated at Intermediate Temperatures
T Wei, Y Gong, X Zhao, K Huang
Advanced Functional Materials 24 (34), 5380-5384, 2014
562014
A high energy density all solid-state tungsten–air battery
X Zhao, X Li, Y Gong, N Xu, K Romito, K Huang
Chemical Communications 49 (47), 5357-5359, 2013
552013
Enhanced reversibility and durability of a solid oxide Fe–air redox battery by carbothermic reaction derived energy storage materials
X Zhao, X Li, Y Gong, K Huang
Chemical Communications 50 (5), 623-625, 2014
532014
A new solid oxide molybdenum–air redox battery
X Zhao, Y Gong, X Li, N Xu, K Huang
Journal of Materials Chemistry A 1 (47), 14858-14861, 2013
432013
Cyclic durability of a solid oxide Fe-air redox battery operated at 650 C
X Zhao, Y Gong, X Li, N Xu, K Huang
Journal of The Electrochemical Society 160 (10), A1716, 2013
422013
A high-fidelity multiphysics model for the new solid oxide iron-air redox battery: part I: Bridging mass transport and charge transfer with redox cycle kinetics
X Jin, X Zhao, K Huang
Journal of Power Sources 280, 195-204, 2015
412015
In-situ preparation of WO3/TiO2 composite film with increased photo quantum efficiency on titanium substrate
J He, QZ Cai, D Zhu, Q Luo, DQ Zhang, XW Li, X Zhao, W Sun
Current Applied Physics 11 (1), 98-100, 2011
332011
Performance of a commercial cathode-supported solid oxide fuel cells prepared by single-step infiltration of an ion-conducting electrocatalyst
X Li, N Xu, X Zhao, K Huang
Journal of Power Sources 199, 132-137, 2012
322012
On the cause of conductivity degradation in sodium strontium silicate ionic conductor
Y Jee, X Zhao, K Huang
Chemical Communications 51 (47), 9640-9642, 2015
282015
A multi-physics model for solid oxide iron-air redox flow battery: Simulation of discharge behavior at high current density
M Guo, X Zhao, RE White, K Huang
Journal of The Electrochemical Society 160 (11), A2085, 2013
282013
Plasma electrolytic oxidation preparation and characterization of SnO2 film
J He, QZ Cai, F Xiao, XW Li, W Sun, X Zhao
Journal of Alloys and Compounds 509 (3), L11-L13, 2011
252011
Phase Relationship and Ionic Conductivity in Na–SrSiO3 Ionic Conductor
Y Jee, X Zhao, X Lei, K Huang
Journal of the American Ceramic Society 99 (1), 324-331, 2016
242016
Solid Oxide Iron-Air Rechargeable Battery-A New Energy Storage Mechanism
X Zhao, N Xu, X Li, Y Gong, K Huang
ECS Transactions 50 (45), 115, 2013
232013
Computational analysis of performance limiting factors for the new solid oxide iron-air redox battery operated at 550 C
X Jin, X Zhao, C Zhang, RE White, K Huang
Electrochimica Acta 178, 190-198, 2015
222015
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Articles 1–20