- [1]Zhao, Kuang-Min, Dao-Xiong, Wu, Wen-Kun, Nie, Jia-Bao, Geng, Fu-Shan, Guang, Shi, Hai-Yan, Sheng-Chao, Huang, Huan, Zhang, Jing, Zhou, Zhi-You, Wang, Yu-Cheng, Sun, Shi-Gang.Identifying high-spin hydroxyl-coordinated Fe3+N4 as the active centre for acidic oxygen reduction using molecular model catalysts.NATURE CATALYSIS, 8 (5) : 422.
- [2]Yuan, Wu, Hao-Ran, Yu, Yue, Chen, Miao-Ying, Zhao, Kuang-Min, Wei-Dong, Rong, Si-Yu, Xue, Dong-ping, Zhang, Jia-Nan, Lu, Bang-An.High-Shell Sulfur Doping Enhances Mn-N4 Spin States and Boosts Oxygen Reduction Reaction Performance in both Acidic and Alkaline Media.SMALL, 21 (11)
- [3]Lou, Yaoyin, Huang, Xiaoyang Jerry, Zhao, Kuang-Min, Douthwaite, Mark J., Fan, Tingting, Lu, Fa, Akdim, Ouardia, Tian, Na, Sun, Shigang, Hutchings, Graham J..Stable core-shell Janus BiAg bimetallic catalyst for CO2 electrolysis into formate.CHINESE CHEMICAL LETTERS, 36 (3)
- [4]Zhu, Weiwei, Liu, Suqin, Zhao, Kuangmin, Su, Yuke, Yuliang, Huang, Kui, He, Zhen.Activating CO by Strengthening Fe-CO π-Backbonding to Enhance Two-Carbon Products Formation toward CO2 Electroreduction on Fe-N4 Sites.ADVANCED FUNCTIONAL MATERIALS, 34 (38)
- [5]Lv, Xue-Hui, Xu, Xia, Zhao, Kuang-Min, Zhou, Zhi-You, Wang, Yu-Cheng, Sun, Shi-Gang.The Lifetime of Hydroxyl Radical in Realistic Fuel Cell Catalyst Layer.CHEMSUSCHEM, 17 (5)
- [6]Zhu, Weiwei, Liu, Suqin, Zhao, Kuangmin, Ye, Guanying, Huang, Kui, He, Zhen.Revealing a Double-Volcano-Like Structure-Activity Relationship for Substitution-Functionalized Metal-Phthalocyanine Catalysts toward Electrochemical CO2 Reduction.SMALL, 20 (4)
- [7]Gao, Xiao bin, Wang, Yucheng, Xu, Weicheng, Huang, Huan, Zhao, Kuangmin, Ye, Hong, Zhou, Zhi-You, Zheng, Nanfeng, Sun, Shi-Gang.Mechanism of Particle-Mediated Inhibition of Demetalation for Single-Atom Catalytic Sites in Acidic Electrochemical Environments.JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 145 (28) : 15528.
- [8]Liang, Xiao-Du, Zheng, Qi-Zheng, Wei, Nian, Lou, Yao-Yin, Hu, Sheng-Nan, Zhao, Kuang-Min, Liao, Hong-Gang, Tian, Na, Zhou, Zhi-You, Sun, Shi-Gang.In-situ constructing Bi@Bi2O2CO3 nanosheet catalyst for ampere-level CO2 electroreduction to formate.NANO ENERGY, 114
- [9]Xu, Wei-Cheng, Zhang, Zhi-Ming, Cong-Hua, Zhao, Kuang-Min, Wang, Yucheng, Tian, Na, Zhou, Zhi-You, Sun, Shi-Gang.Promotion mechanism of PtCo intermetallic ordered alloys in oxygen reduction reaction and its application in fuel cells.ELECTROCHEMISTRY COMMUNICATIONS, 152
- [10]Ye, Guanying, Liu, Suqin, Zhao, Kuangmin, He, Zhen.Singlet Oxygen Induced Site-Specific Etching Boosts Nitrogen-Carbon Sites for High-Efficiency Oxygen Reduction.ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 62 (21)
- [11]Wei, Nian, Zhao, Kuangmin, Zhou, Zhiyou, Wang, Yu-Cheng, Sun, Shi-Gang.Impact of Pore Structure on Electrochemical Reduction of Carbon Dioxide in Iron- and Nitrogen-Doped Carbon Materials: Solid-Liquid Interface Versus Solid-Gas-Liquid Triple-Phase Boundary.JOURNAL OF PHYSICAL CHEMISTRY C, 127 (6) : 2981.
- [12]Xu, Weicheng, Zhu, Zhipeng, Wang, Yucheng, Cui, Peixin, Tong, Lei, Zhao, Kuangmin, Yuan, Jiayin, Zhou, Zhi-You, Liang, Hai-Wei, Tian, Na, Sun, Shi-Gang.Nitrogen doping to accelerate the phase transition to ordered intermetallic Pt3Co catalyst for the oxygen reduction reaction in fuel cells.JOURNAL OF MATERIALS CHEMISTRY A, 11 (8) : 4078.
- [13]Fang, Jia-Yi, Zheng, Qi-Zheng, Lou, Yao-Yin, Zhao, Kuang-Min, Hu, Sheng-Nan, Guang, Akdim, Ouardia, Huang, Xiao-Yang, Sun, Shi-Gang.Ampere-level current density ammonia electrochemical synthesis using CuCo nanosheets simulating nitrite reductase bifunctional nature.NATURE COMMUNICATIONS, 13 (1)
- [14]Wan, Liyang, Zhao, Kuangmin, Wang, Yu-Cheng, Wei, Nian, Zhang, Pengyang, Yuan, Jiayin, Zhou, Zhiyou, Sun, Shi-Gang.Molecular Degradation of Iron Phthalocyanine during the Oxygen Reduction Reaction in Acidic Media.ACS CATALYSIS, 12 (18) : 11097.
- [15]Zhao, Kuang-Min, Suqin, Yu-Yang, Wei, Xianli, Ye, Guanying, Zhu, Weiwei, Su, Yuke, Wang, Jue, Liu, Hongtao, He, Zhen, Zhou, Zhi-You, Sun, Shi-Gang.Insight into the Mechanism of Axial Ligands Regulating the Catalytic Activity of Fe-N4 Sites for Oxygen Reduction Reaction.ADVANCED ENERGY MATERIALS, 12 (11)
- [16]Ye, Guanying, Liu, Suqin, Huang, Kui, Siyuan, Zhao, Kuangmin, Zhu, Weiwei, Su, Yuke, Wang, Jue, He, Zhen.Domain-Confined Etching Strategy to Regulate Defective Sites in Carbon for High-Efficiency Electrocatalytic Oxygen Reduction.ADVANCED FUNCTIONAL MATERIALS, 32 (18)
- [17]Xiao, Dejun, Liu, Suqin, Zhao, Kuangmin, Ye, Guanying, Su, Yuke, Zhu, Weiwei, He, Zhen.Metal-organic framework-derived ultrasmall nitrogen-doped carbon-coated CoSe2/ZnSe nanospheres as enhanced anode materials for sodium-ion batteries.IONICS, 27 (8) : 3327.
- [18]Su, Yuke, Liu, Suqin, Ye, Guanying, Zhu, Weiwei, Zhao, Kuangmin, Huang, Rongjiao, He, Zhen.ZnCl2 as a Nitrogen Bank to Inhibit Nitrogen Loss during the Thermal Conversion of Nitrogen-Containing Carbon Precursors to Nitrogen-Doped Carbon.ACS APPLIED ENERGY MATERIALS, 4 (6) : 5375.
- [19]Li Dongjie, Liu, Suqin, Ye, Guanying, Zhu, Weiwei, Zhao, Kuangmin, Luo, Meng, He, Zhen.One-step electrodeposition of NixFe3-xO4/Ni hybrid nanosheet arrays as highly active and robust electrocatalysts for the oxygen evolution reaction.GREEN CHEMISTRY, 22 (5) : 1710.
- [20]Wei, Xianli, Suqin, Wang, Jue, Zhen, Zhao, Kuangmin, Yang Yuliang, Liu, Bingjun, Huang, Rongjiao, He, Zhangxing.Boosting the performance of positive electrolyte for VRFB by employing zwitterion molecule containing sulfonic and pyridine groups as the additive.IONICS, 26 (6) : 3147.