Articles with public access mandates - Chen XiaLearn more
Not available anywhere: 49
Novel fuel cell with nanocomposite functional layer designed by perovskite solar cell principle
B Zhu, Y Huang, L Fan, Y Ma, B Wang, C Xia, M Afzal, B Zhang, W Dong, ...
Nano Energy 19, 156-164, 2016
Mandates: National Natural Science Foundation of China, Academy of Finland, Swedish …
Electrochemical and electrical properties of doped CeO2-ZnO composite for low-temperature solid oxide fuel cell applications
Z Qiao, C Xia, Y Cai, M Afzal, H Wang, J Qiao, B Zhu
Journal of Power Sources 392, 33-40, 2018
Mandates: National Natural Science Foundation of China, Swedish Research Council
Promoted electrocatalytic activity and ionic transport simultaneously in dual functional Ba0. 5Sr0. 5Fe0. 8Sb0. 2O3-δ-Sm0. 2Ce0. 8O2-δ heterostructure
N Mushtaq, Y Lu, C Xia, W Dong, B Wang, MAKY Shah, S Rauf, M Akbar, ...
Applied Catalysis B: Environmental 298, 120503, 2021
Mandates: National Natural Science Foundation of China, Academy of Finland
Semiconductor electrolyte for low-operating-temperature solid oxide fuel cell: Li-doped ZnO
C Xia, Z Qiao, L Shen, X Liu, Y Cai, Y Xu, J Qiao, H Wang
International Journal of Hydrogen Energy 43 (28), 12825-12834, 2018
Mandates: National Natural Science Foundation of China
Mixed ionic-electronic conductor membrane based fuel cells by incorporating semiconductor Ni0. 8Co0. 15Al0. 05LiO2− δ into the Ce0. 8Sm0. 2O2− δ-Na2CO3 electrolyte
W Zhang, Y Cai, B Wang, C Xia, W Dong, J Li, B Zhu
international journal of hydrogen energy 41 (34), 15346-15353, 2016
Mandates: National Natural Science Foundation of China, Swedish Research Council
Novel high ionic conductivity electrolyte membrane based on semiconductor La0. 65Sr0. 3Ce0. 05Cr0. 5Fe0. 5O3-δ for low-temperature solid oxide fuel cells
Y Meng, X Wang, W Zhang, C Xia, Y Liu, M Yuan, B Zhu, Y Ji
Journal of Power Sources 421, 33-40, 2019
Mandates: Chinese Academy of Sciences, National Natural Science Foundation of China
Semiconductor Nb-Doped SrTiO3−δ Perovskite Electrolyte for a Ceramic Fuel Cell
MAKY Shah, S Rauf, B Zhu, N Mushtaq, M Yousaf, PD Lund, C Xia, ...
ACS Applied Energy Materials 4 (1), 365-375, 2021
Mandates: National Natural Science Foundation of China, Academy of Finland
High-performing and stable non-doped ceria electrolyte with amorphous carbonate coating layer for low-temperature solid oxide fuel cells
M Akbar, B Jin, Z Tu, J Gao, M Yousaf, N Mushtaq, X Wang, W Dong, ...
Electrochimica Acta 393, 139067, 2021
Mandates: National Natural Science Foundation of China
High-performance SOFC based on a novel semiconductor-ionic SrFeO3-δ–Ce0. 8Sm0. 2O2-δ membrane
Y Meng, X Wang, C Xia, B Wang, W Dong, Y Ji, B Zhu
International Journal of Hydrogen Energy 43 (28), 12697-12704, 2018
Mandates: Chinese Academy of Sciences, National Natural Science Foundation of China
Validating the technological feasibility of yttria-stabilized zirconia-based semiconducting-ionic composite in intermediate-temperature solid oxide fuel cells
Y Cai, B Wang, Y Wang, C Xia, J Qiao, PA van Aken, B Zhu, P Lund
Journal of Power Sources 384, 318-327, 2018
Mandates: National Natural Science Foundation of China, Swedish Research Council
Tuning La0. 6Sr0. 4Co0. 2Fe0. 8O3-δ perovskite cathode as functional electrolytes for advanced low-temperature SOFCs
Y Chen, X Nie, B Wang, C Xia, W Dong, X Wang, H Wang, B Zhu
Catalysis Today 355, 295-303, 2020
Mandates: National Natural Science Foundation of China
Catalytic membrane with high ion–electron conduction made of strongly correlated perovskite LaNiO3 and Ce0. 8Sm0. 2O2-δ for fuel cells
Y Lu, M Akbar, C Xia, Y Mi, L Ma, B Wang, B Zhu
Journal of catalysis 386, 117-125, 2020
Mandates: National Natural Science Foundation of China
Semiconductor-membrane fuel cell (SMFC) for renewable energy technology
MAKY Shah, Y Lu, N Mushtaq, M Yousaf, N Akbar, C Xia, S Yun, B Zhu
Renewable and Sustainable Energy Reviews 185, 113639, 2023
Mandates: National Natural Science Foundation of China
Characterizing the Blocking Electron Ability of the Schottky Junction in SnO2–SDC Semiconductor–Ionic Membrane Fuel Cells
K Liu, KS Ganesh, J Nie, Z He, C Xia, W Dong, X Wang, H Wang, B Wang
ACS Sustainable Chemistry & Engineering 8 (28), 10357-10368, 2020
Mandates: National Natural Science Foundation of China
Fast ionic conduction and rectification effect of NaCo0. 5Fe0. 5O2-CeO2 nanoscale heterostructure for LT-SOFC electrolyte application
M Akbar, G Qu, W Yang, J Gao, M Yousaf, N Mushtaq, X Wang, W Dong, ...
Journal of Alloys and Compounds 924, 166565, 2022
Mandates: National Natural Science Foundation of China
Electrochemical Properties of a Dual-Ion Semiconductor-Ionic Co0.2Zn0.8O-Sm0.20Ce0.80O2−δ Composite for a High-Performance Low-Temperature Solid …
S Rauf, MAKY Shah, B Zhu, Z Tayyab, N Ali, S Attique, C Xia, R Khatoon, ...
ACS Applied Energy Materials 4 (1), 194-207, 2021
Mandates: National Natural Science Foundation of China, Academy of Finland
Validating the application of semiconductor-ionic conductor in solid oxide fuel cells as electrolyte membrane
W Dong, Z Xiao, M Hu, R Ruan, S Li, X Wang, C Xia, B Wang, H Wang
Journal of Power Sources 499, 229963, 2021
Mandates: National Natural Science Foundation of China
Processing SCNT (SrCo0. 8Nb0. 1Ta0. 1O3-δ)-SCDC (Ce0. 8Sm0. 05Ca0. 15O2-δ) composite into semiconductor-ionic membrane fuel cell (SIMFC) to operate below 500° C
X Nie, D Zheng, Y Chen, B Wang, C Xia, W Dong, X Wang, H Wang, ...
International Journal of Hydrogen Energy 44 (59), 31372-31385, 2019
Mandates: National Natural Science Foundation of China
Demonstrating the dual functionalities of CeO2–CuO composites in solid oxide fuel cells
M Akbar, Z Tu, B Jin, N Mushtaq, Z He, W Dong, B Wang, X Wang, C Xia
International Journal of Hydrogen Energy 46 (15), 9938-9947, 2021
Mandates: National Natural Science Foundation of China
A p–n–n heterostructure composite for low-temperature solid oxide fuel cells
Y Lu, M Akbar, J Li, L Ma, B Wang, C Xia
Journal of Alloys and Compounds 890, 161765, 2022
Mandates: National Natural Science Foundation of China
Publication and funding information is determined automatically by a computer program