吕湘龙,男,湖南永州人,博士,硕士生导师。
教育与工作经历
2004/09-2008/09,中南大学,bwin必赢中国官网,学士
2008/09-2016/01,中国科学院金属研究所,材料学专业,硕博连读,博士,师从卢柯院士,李毅研究员和卢磊研究员,从事塑性基底约束下非晶镀层塑性变形机制的研究。
2016/05-2020/11, 华中科技大学,物理学院博士后,从事纳米多孔金属材料制备及电化学催化方面的研究,合作导师钱立华教授。
研究方向
(1)纳米多孔金属电化学催化
(2)非晶金属薄膜塑性变形机制
科研项目
(1)国家自然科学基金地区项目,纳米多孔双金属Ag-Cu二氧化碳串联催化机理研究,2022/01 – 2025/12,在研,主持
(2)广西科技厅基地和人才专项, 纳米多孔金属/非晶核壳结构CO2电催化还原机理研究, 2021/12 – 2024/11, 在研, 主持
(3)中国博士后科学基金(第61批),2017M612455,双相多孔Ag-CuOx电极的CO2电催化选择性,2017/07 – 2019/6,已结题,主持
(4)国家自然科学基金面上项目,51771078,纳米多孔Au-Cu、Au-Pd电催化选择性的动力学调控机理,2018/01 – 2021/12,已结题,参与
代表性研究成果
1. Yang, M. Y; Wu, J. J; Li, Y.; Pan, H. Y; Cui, H.B; Lu, X. L*; Tang, X.*; Structural Evolution of Oxide-derived Nanostructured Sliver Electrocatalysts during CO2 Electroreduction, ACS Catalysis 2024, 14, 6169-6178.
2. Guo, Y. M; Chen, M.R; Wang, Y. J; Lu, X. L*; Wu, J. J; Tang, X.*; Nanoporous Ag−Mn Alloy Electrocatalysts via Dealloying for Enhanced Oxygen Reduction Reaction in Zinc-Air Batteries, ACS Applied Nano Materials 2024, 7, 8351–8361.
3. Sun, T. Z; Wu, J. J*; Lu, X. L; Tang, X.*, Selectivities of Cu edges surface environment for C1 and C2 pathways. Molecular Catalysis 2024, 559, 114047.
4. Wang, Y. C.; Zhao, H. N.; Guo, Y. M.; Wu, J. J.; Lu, X. L*; Tang, X.*, Pyrochlore-type cobalt and manganese antimonate electrocatalysts with excellent activity and stability for OER in acidic solution. Nanoscale 2023, 15, 9413-9422.
5. Yu, T. S; Zhou, X. J; Chen, Y.; Chen, J.; Yuan, S. L; Qian, L. H*; Lu, X. L*; Liu, P.; Lei, P. X; Li, X. H, Intrinsic Contribution of Mass Transport within Nanoscale Channels of Nanoporous Gold for CO2 Electrochemical Reduction. Advanced Materials Interfaces 2022, 9, 2200895.
6. Wang, Y. C; Wu, J. J; Lu, X. L*; Guo, Y. M; Zhao, H. N; Tang, X.*, A-site doped ruthenium perovskite bifunctional electrocatalysts with high OER and ORR activity. Journal of Alloys and Compounds 2022, 920, 165770.
7. Wang, H. L; Zhou, X. J; Yu, T. S; Lu, X. L; Qian, L. H*; Liu, P.; Lei, P. X, Surface restructuring in AgCu single-atom alloy catalyst and self-enhanced selectivity toward CO2 reduction. Electrochimica Acta 2022, 426, 140774.
8. Han, T. R; Wu, J. J; Lu, X. L*; Wang, Y. C; Zhao, H. N; Tang, X.*, Study of OER electrocatalysts performance of Fe/Mn doped pyrochlorestructure. Journal of Solid State Chemistry 2021, 303, 122457.
9. Lu, X. L; Yu, T. S; Wang, H. L; Qian, L. H*; Lei, P. X, Electrochemical fabrication and reactivation of nanoporous gold with abundant surface steps for CO2 reduction, ACS Catalysis 2020, 10, 8860-8869.
10. Lu, X. L; Yu, T. S; Wang, H. L; Qian, L. H*; Luo, R. C; Liu, P.; Yu, Y.; Liu, L.; Lei, P. X; Yuan, S. L, Nanoporous Au-Sn with solute strain for simultaneously enhanced selectivity and durability during electrochemical CO2 reduction. Journal of Materials Science &Technology, 2020, 43, 154-160.
11. Lu, X. L; Yu, T. S; Wang, H. L; Luo, R. C; Liu, P.; Yuan, S. L; Qian, L. H*, Self-supported nanoporous gold with gradient tin oxide for sustainable and efficient hydrogen evolution in neutral media. Journal of Renewable Materials 2020, 8, 133-151.
12. Lu, X. L; Li, Y*; Lu, L*, Co-existence of homogeneous flow and localized plastic deformation in tension of amorphous Ni–P films on ductile substrate. Acta Mater. 2016, 106, 182-192.
13. Lu, X. L; Lu, Q. H; Li, Y*; Lu, L*, Gradient confinement induced uniform tensile ductility in metallic glass. Scientific Reports 2013, 3.
14. Zhou, X. J; Lu, X. L; Yu, T. S; Wang, H. L; Qian, L. H*; Lei, P. X; Yu, Y.; Liu, L.; Xia, S. G; Fang, J. K, Conformal Shell Amorphization of Nanoporous Ag-Bi for Efficient Formate Generation. ACS Appl. Mater. Interfaces 2020, 12, 31319-31326.
15. Barasa, G. O.; Yu, T. S; Lu, X. L; Zhou, X. J; Wang, H. L; Qian, L. H*; Yu, Y.; Liu, L.; Lei, P. X, Electrochemical training of nanoporous Cu-In catalysts for efficient CO2-to-CO conversion and high durability. Electrochim. Acta 2019, 295, 584-590.
16. Yang, W. P; Qian, L. H*; Lei, P. X; Chen, J.; Lu, X. L; Yu, T. S; Xiao, H. B; Zhou, X. J; Kathale, B., Active and selective CO2 electroreduction on a hierarchically nanoporous Au-Ag shell. Chem. Phys. Lett. 2020, 753, 137563.
联系方式
通信地址:广西桂林市建干路12号
E-mail:xllv@glut.edu.cn
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