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谢水奋
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教授
博士生导师
硕士生导师
- 性别:男
- 学历:博士研究生
- 学位:理学博士学位
- 所在单位:材料科学与工程学院
- 办公地点:华侨大学厦门园区泛华科技大楼A502-1
- 电子邮箱:b035cde23fc5c12cff7fe19791adec26701cb8604cbe75adf449d3900ef90d9f5471f7cacbaf580dbb22facc5441d0de1c68dda88949fd66f8cdc8e1e8f5ab8a536fa111e986a17e0bc09240796e693aadf966c76d2d715ecfbe3bdfa90c985d783c7e17cedc86a79f5c91690fb995feabbfcab733946bcb42626f4202e35f64
- 在职信息:在岗
- 学科:物理化学
无机化学
- 2017当选:福建省自然科学基金杰出青年项目
- 2018当选:福建省高等学校新世纪优秀人才支持计划
- 2023当选:福建省青年拔尖人才
- 2020-2022学年华侨大学“优秀研究生导师”
- 2016-2018学年华侨大学“学术英才”
访问量:
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[1]Lyu, Z. X.†; Cai, J. L.†; Zhang, X. G.*; Li, H. Q.; Huang, H. P.; Wang, S. P.; Li, T. Y.; Wang, Q. X.; Xie, Z. X.; Xie, S. F.*, Biphase Pd Nanosheets with Atomic-Hybrid RhOx/Pd Amorphous Skins Disentangle the Activity-Stability Trade-Off in Oxygen Reduction Reaction. Adv. Mater. 2024, 36(24): 2314252..
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[2]Huang, H. P.†; Liu, K.†; Yang, F. L.*; Cai, J. L.; Wang, S. P.; Chen, W. Z.; Wang, Q. X.; Fu, L. H.; Xie, Z. X.; Xie, S. F.*, Breaking Surface Atomic Monogeneity of Rh2P Nanocatalysts by Defect-Derived Phosphorus Vacancies for Efficient Alkaline Hydrogen Oxidation. Angew. Chem. Int. Ed. 2023, 135(52): e202315752. (Very Important Paper).
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[3]Wang, S. P.†; Fu, L. H.†, Huang, H. P.; Fu, M.; Cai, J. L.; Lyu, Z. X.; Wang, Q. X.; Kuang, Q.; Xie, Z. X.; Xie, S. F.*, Local Oxidation Induced Amorphization of 1.5-nm-Thick Pt–Ru Nanowires Enables Superactive and CO-Tolerant Hydrogen Oxidation in Alkaline Media. Adv. Funct. Mater. 2023, 33(43): 2304125..
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[4]Cai, J. L.†; Zhang, X.†; Lyu, Z. X.; Huang, H. P.; Wang, S. P.; Fu, L. H.; Wang, Q. X.; Yu, X. F.; Xie, Z. X.; Xie, S. F.*, Host–Guest Ensemble Effect on Dual-Pt atom-on-Rh Nanosheets Enables High-Efficiency and Anti-CO Alkaline Hydrogen Oxidation. ACS Catalysis 2023, 13(10): 6974-6982..
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[5]Lyu, Z. X.†; Zhang, X.†; Liao, X. Y.†; Liu, K.; Huang, H. P.; Cai, J. L.; Kuang, Q.; Xie, Z. X.; Xie, S. F.*, Two-dimensionally Assembled Pd-Pt-Ir Super-Nanosheets with Subnanometer Interlayer Spacings toward High-efficiency and Durable Water Splitting.ACS Catalysis 2022, 12(9):5305-5315..
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[6]Huang, H. P.†; Fu, L. H†.; Kong, W. Q.; Ma, H. R.; Zhang, X.*; Cai, J. L.; Wang, S. P.; Xie, Z. X.; Xie, S. F.*, Equilibrated PtIr/IrOx Atomic Heterojunctions on Ultrafine 1D Nanowires Enable Superior Dual-Electrocatalysis for Overall Water Splitting. Small 2022, 18(20): 202201333..
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[7]Lyu, Z.; Zhang, X. G.; Wang, Y.; Liu, K.; Qiu, C.; Liao, X.; Yang, W.; Xie, Z.; Xie, S. F.*, Amplified Interfacial Effect in an Atomically Dispersed RuOx-on-Pd 2D Inverse Nanocatalyst for High-Performance Oxygen Reduction. Angew. Chem. Int. Ed. 2021, 60(29): 16093-16100..
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[8]Wang, W.; Zhang, X.; Zhang, Y.; Chen, X.; Ye, J.; Chen, J.; Lyu, Z.; Chen, X.; Kuang, Q.; Xie, S. F.*, Xie Z. Edge Enrichment of Ultrathin 2D PdPtCu Trimetallic Nanostructures Effectuates Top-Ranked Ethanol Electrooxidation. Nano Lett. 2020, 20, 5458-5464..
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[9]Wang, W.; Chen, X.; Zhang, X.; Ye, J.; Xue, F.; Zhen, C.; Liao, X.; Li, H.; Li, P.; Liu, M.; Kuang, Q.; Xie, Z.*; Xie, S. F.*, Quatermetallic Pt-Based Ultrathin Nanowires Intensified by Rh Enable Highly Active and Robust Electrocatalysts for Methanol Oxidation. Nano Energy 2020, 71, 104623..
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[10]Liu, K.; Wang, W.; Guo, P.; Ye, J. Y.; Wang, Y.; Li, P. T.; Lyu, Z.; Geng, Y.; Liu, M.; Xie, S. F.*, Replicating the Defect Structures on Ultrathin Rh Nanowires with Pt to Achieve Superior Electrocatalytic Activity toward Ethanol Oxidation. Adv. Funct. Mater. 2019, 29, 1806300..
