| PrBaMn2O5+ δ with praseodymium oxide nano-catalyst as electrode for symmetrical solid oxide fuel cells Y Gu, Y Zhang, Y Zheng, H Chen, L Ge, L Guo Applied Catalysis B: Environmental 257, 117868, 2019 | 80 | 2019 |
| Mo-doped La0· 6Sr0· 4FeO3-δ as an efficient fuel electrode for direct electrolysis of CO2 in solid oxide electrolysis cells S Wang, H Jiang, Y Gu, B Yin, S Chen, M Shen, Y Zheng, L Ge, H Chen, ... Electrochimica Acta 337, 135794, 2020 | 55 | 2020 |
| Effect of Cl doping on the electrochemical performance of Sr2Fe1. 5Mo0. 5O6− δ cathode material for solid oxide fuel cells Y Zhang, Z Zhu, Y Gu, H Chen, Y Zheng, L Ge Ceramics International 46 (14), 22787-22796, 2020 | 37 | 2020 |
| Modifying the electrode-electrolyte interface of anode supported solid oxide fuel cells (SOFCs) by laser-machining Y Zhang, G Cai, Y Gu, L Ge, Y Zheng, H Chen, L Guo Energy Conversion and Management 171, 1030-1037, 2018 | 33 | 2018 |
| Effect of BaOB2O3 composite sintering aid on sinterability and electrical property of BaZr0. 85Y0. 15O3-δ ceramic J Jiao, Q Li, Y Gu, Y Luo, L Ge, Y Zheng, H Chen, L Guo Ceramics International 45 (11), 13679-13684, 2019 | 25 | 2019 |
| Enhancing the performance of symmetrical solid oxide fuel cells with Sr2Fe1. 5Mo0. 5O6-δ electrodes via infiltration of Pr6O11 bifunctional catalyst Z Zhu, K Sun, D Xu, Y Gu, Q Ni, Y Zheng, H Chen, L Ge, X Huang, L Guo Electrochimica Acta 402, 139569, 2022 | 24 | 2022 |
| YSZ electrolyte support with novel symmetric structure by phase inversion process for solid oxide fuel cells Y Gu, Y Zhang, L Ge, Y Zheng, H Chen, L Guo Energy Conversion and Management 177, 11-18, 2018 | 23 | 2018 |
| Boosting the performance of conventional air electrodes for solid oxide cells by in-situ loading of nano praseodymium oxide L Ge, K Sun, Y Gu, Q Ni, X Huang Energy Conversion and Management 249, 114873, 2021 | 22 | 2021 |
| Modification of electrolyte surface with “windows” and “dimples array” structure for SOFC based on YSZ electrolyte G Cai, Y Gu, L Ge, Y Zhang, H Chen, L Guo Ceramics International 43 (12), 8944-8950, 2017 | 18 | 2017 |
| Highly durable Sr-doped LaMnO3-based cathode modified with Pr6O11 nano-catalyst for protonic ceramic fuel cells based on Y-doped BaZrO3 electrolyte K Sun, Z Yu, Q Ni, Y Li, D Xu, Y Gu, Y Zheng, H Chen, L Ge, L Guo Journal of the European Ceramic Society 42 (10), 4266-4274, 2022 | 13 | 2022 |
| Improving electrochemical performance of (Cu, Sm) CeO2 anode with anchored Cu nanoparticles for direct utilization of natural gas in solid oxide fuel cells Z Wang, Y Wang, D Qin, Y Gu, H Yu, S Tao, B Qian, Y Chao Journal of the European Ceramic Society 42 (7), 3254-3263, 2022 | 13 | 2022 |
| Sr-substituted SmBa0. 75Ca0. 25CoFeO5+ δ as a cathode for intermediate-temperature solid oxide fuel cells H Yang, Y Gu, Y Zhang, Y Zheng, Z Zhang, L Ge, H Chen, L Guo Journal of Alloys and Compounds 770, 616-624, 2019 | 13 | 2019 |
| Effect of sintering aids on the densification and electrical properties of SiO2–containing Ce0. 8Sm0. 2O1. 9 ceramic L Ge, Y Gu, Y Zhang, X Li, Q Ni, L Guo Journal of the European Ceramic Society 38 (6), 2553-2561, 2018 | 11 | 2018 |
| Electrochemical evaluation of Pr1. 85M0. 15NiO4+ x (M= Ba, Sr, Ca) cathodes for protonic ceramic fuel cells Y Gu, R Peng, P Xiong, S Li, Z Wang, H Dai, L Bi Ceramics International 50 (11), 19437-19445, 2024 | 7 | 2024 |
| Utilizing in-situ formed heterostructure oxides as a cathode for proton-conducting solid oxide fuel cells Y Gu, X Xu, W Dai, Z Wang, Y Yin, L Bi Journal of the European Ceramic Society 44 (7), 4822-4830, 2024 | 2 | 2024 |
| Avoiding undesirable cathode/electrolyte interfacial reactions for proton-conducting solid oxide fuel cells by Joule heating Y Gu, Z Chen, Z Wang, S Yu, L Bi Journal of Advanced Ceramics, 2025 | | 2025 |
