| 近期学术成果 |
1. Wu R Y, Liu XJ, Li Z B, Li S M, Zhu H H, Zhong H N, Wang H, Wu Y, Jiang S H, Zhang X B, Wang X Z, Lu Z P. Electronic mechanism for the enhanced hydrogen evolution reaction activity of Cu alloys. Acta Materialia, 2025, 284: 120644.(1区,一作) 2. Wu R Y, Gao R Y, Li Z B, Wang J, Wang H, Wu Y, Jiang S H, ZhangXB, Wang X Z, Liu X J, Lu Z P. Nanoporous high-entropy Mn-Fe-Co-Ni amorphous oxide: Boosting oxygen evolution efficiency through electron spin-polarization. Journal of Materials Science & Technology, 2025, 238: 266-75. (1区,一作) 3. Li Z B, Wu R Y, Duan D B, Liu X J, Li R, Wang J, Chen H W, Chen S W, Wu Y, Jiang S H, Zhang X B, Lu Z P. Empowering multicomponent alloys with unique nanostructure for exceptional oxygen evolution performance through self-replenishment. Joule, 2024, 8(10): 2920-37. (1区,共同一作) 4. Li R, Wu R Y, Li Z B, Wang J, Liu X J, Wen Y R, Chiang F K, Chen S W, Chan K C, Lu Z P. Boosting Oxygen-Evolving Activity via Atom-Stepped Interfaces Architected with Kinetic Frustration. Advanced Materials, 2023, 35(50): 2206890. (1区,共同一作) 5. Li R, Liu X J, Wu R Y, Wang J, Li Z B, Chan K C, Wang H, Wu Y, Lu Z P. Flexible Honeycombed Nanoporous/Glassy Hybrid for Efficient Electrocatalytic Hydrogen Generation. Advanced Materials, 2019, 31(49): 1904989. (1区)
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