Dong Ding
Cited by
Cited by
Enhancing SOFC cathode performance by surface modification through infiltration
D Ding, X Li, SY Lai, K Gerdes, M Liu
Energy & Environmental Science 7 (2), 552-575, 2014
Three-dimensional ultrathin Ni (OH) 2 nanosheets grown on nickel foam for high-performance supercapacitors
X Xiong, D Ding, D Chen, G Waller, Y Bu, Z Wang, M Liu
Nano Energy 11, 154-161, 2015
Controlled synthesis of NiCo2S4 nanostructured arrays on carbon fiber paper for high-performance pseudocapacitors
X Xiong, G Waller, D Ding, D Chen, B Rainwater, B Zhao, Z Wang, M Liu
Nano Energy 16, 71-80, 2015
Triple‐conducting layered perovskites as cathode materials for proton‐conducting solid oxide fuel cells
J Kim, S Sengodan, G Kwon, D Ding, J Shin, M Liu, G Kim
ChemSusChem 7 (10), 2811-2815, 2014
Advances in cathode materials for solid oxide fuel cells: complex oxides without alkaline earth metal elements
Y Chen, W Zhou, D Ding, M Liu, F Ciucci, M Tade, Z Shao
Advanced Energy Materials 5 (18), 1500537, 2015
Self-sustainable protonic ceramic electrochemical cells using a triple conducting electrode for hydrogen and power production
H Ding, W Wu, C Jiang, Y Ding, W Bian, B Hu, P Singh, CJ Orme, L Wang, ...
Nature communications 11 (1), 1907, 2020
Recent advances in intensified ethylene production—a review
Y Gao, L Neal, D Ding, W Wu, C Baroi, AM Gaffney, F Li
ACS Catalysis 9 (9), 8592-8621, 2019
Probing the Charge Storage Mechanism of a Pseudocapacitive MnO2 Electrode Using in Operando Raman Spectroscopy
D Chen, D Ding, X Li, GH Waller, X Xiong, MA El-Sayed, M Liu
Chemistry of Materials 27 (19), 6608-6619, 2015
A robust and active hybrid catalyst for facile oxygen reduction in solid oxide fuel cells
Y Chen, Y Chen, D Ding, Y Ding, YM Choi, L Zhang, S Yoo, D Chen, ...
Energy & Environmental Science 10 (4), 964-971, 2017
Enhanced performance of LSCF cathode through surface modification
M Liu, D Ding, K Blinn, X Li, L Nie, M Liu
international journal of hydrogen energy 37 (10), 8613-8620, 2012
Design and understanding of dendritic mixed-metal hydroxide nanosheets@ N-doped carbon nanotube array electrode for high-performance asymmetric supercapacitors
Q Zhang, Z Liu, B Zhao, Y Cheng, L Zhang, HH Wu, MS Wang, S Dai, ...
Energy Storage Materials 16, 632-645, 2019
Phase evolution of an alpha MnO2-based electrode for pseudo-capacitors probed by in operando Raman spectroscopy
S Cheng, L Yang, D Chen, X Ji, Z Jiang, D Ding, M Liu
Nano Energy 9, 161-167, 2014
Fabrication and modification of solid oxide fuel cell anodes via wet impregnation/infiltration technique
Z Liu, B Liu, D Ding, M Liu, F Chen, C Xia
Journal of Power Sources 237, 243-259, 2013
Revitalizing interface in protonic ceramic cells by acid etch
W Bian, W Wu, B Wang, W Tang, M Zhou, C Jin, H Ding, W Fan, Y Dong, ...
Nature 604 (7906), 479-485, 2022
Crystallinity dependence of ruthenium nanocatalyst toward hydrogen evolution reaction
Y Li, LA Zhang, Y Qin, F Chu, Y Kong, Y Tao, Y Li, Y Bu, D Ding, M Liu
Acs Catalysis 8 (7), 5714-5720, 2018
A highly efficient and robust nanofiber cathode for solid oxide fuel cells
Y Chen, Y Bu, Y Zhang, R Yan, D Ding, B Zhao, S Yoo, D Dang, R Hu, ...
Advanced Energy Materials 7 (6), 2016
Efficient electro‐catalysts for enhancing surface activity and stability of SOFC cathodes
D Ding, M Liu, Z Liu, X Li, K Blinn, X Zhu, M Liu
Advanced Energy Materials 3 (9), 1149-1154, 2013
Oxygen-and nitrogen-enriched 3D porous carbon for supercapacitors of high volumetric capacity
J Li, K Liu, X Gao, B Yao, K Huo, Y Cheng, X Cheng, D Chen, B Wang, ...
ACS applied materials & interfaces 7 (44), 24622-24628, 2015
Enhanced electrochemical properties of a LiNiO 2-based cathode material by removing lithium residues with (NH 4) 2 HPO 4
X Xiong, D Ding, Y Bu, Z Wang, B Huang, H Guo, X Li
Journal of Materials Chemistry A 2 (30), 11691-11696, 2014
An active and robust air electrode for reversible protonic ceramic electrochemical cells
Y Zhou, E Liu, Y Chen, Y Liu, L Zhang, W Zhang, Z Luo, N Kane, B Zhao, ...
ACS Energy Letters 6 (4), 1511-1520, 2021
The system can't perform the operation now. Try again later.
Articles 1–20