刘成，2024年12月毕业于福州大学能源与环境光催化国家重点实验室，师从吴棱教授，现任西南交通大学未来技术研究院特聘副研究员。主要研究方向：光催化，超薄二维纳米材料和MOFs材料的设计合成及其在光催化有机转化、固氮、抗生素降解等的应用。目前以第一/共一作者身份在Chin. J. Catal、Chem. Eng. J、J. Colloid. Interf. Sci、Rare Met、ACS Sustainable Chem. Eng、 J. Catal、Appl. Surf. Sci等国际期刊发表数十篇SCI论文。

（一）金属有机框架（MOFs）材料研究工作

1.C. Liu, H. Liu, J. Yu, L. Wu*, Z. Li*, Strategies to engineer metal‐organic frameworks for efficient photocatalysis, Chin. J. Catal., 2023, 55, 1–19.（邀稿综述）

2.C. Liu, M. Chen, Y. Chen, Q. Chen, J. Wu*, S. Lin*, L. Wu*, J. C. Yu. Bimetallic MIL-68(InFe) MOF nanorods for biomimetic photocatalytic N₂ fixation. Chem. Eng. J, 2024, 155646.

3.C. Liu, Q. Chen, Y. Chen, J. C. Yu, J. Wu*, L. Wu*, Ti³⁺-mediated MIL-125(Ti) by metal substitution for boosting photocatalytic N₂ fixation, J. Colloid. Interf. Sci., 2025, 678: 616-626.

4.C. Liu, H. Chen, Q. Chen, J. Bi*, J. C. Yu, L. Wu*, Active site modulation in UiO-66(Ce) MOFs by Al³⁺ doping for boosting photocatalysis, J. Catal., 2024, 437, 115670.

5.C. Liu, Y. Shi, Q. Chen, B. Ye, J. Bi*, J. Yu, L. Wu*, The defect-modulated UiO-66(Ce) MOFs for enhancing photocatalytic selective organic oxidations, Rare Metals., 2024, https://doi.org/10.1007/s12598-024-02693-x.

6.C. Liu, Y. Liu, Y. Shi, Z. Wang, W. Guo, J. Bi*, L. Wu*, Au nanoparticles-anchored defective metal–organic frameworks for photocatalytic transformation of amines to imines under visible light, J. Colloid. Interf. Sci., 2023, 631, 154–163.

7.B. Ye ¹; C. Liu¹, Y. Chen, Q. Chen, K. Jing, J. C. Yu, J. Wu*; L. Wu*, Regulating the unsaturated Co wites on MOF-74(Co) for enhancing photocatalytic N₂ to NH₃ conversion, ACS Sustainable Chem. Eng. 2025, 13: 3588−3599.

8.Z. Zhang¹, C. Liu¹, Y. Chen, Q. Chen, Y. Shi, Z. Wang, J. Bi*, J. C. Yu, L. Wu*, Defect modulation of MIL-68(Fe) MOFs by Cu doping for boosting photocatalytic N₂ fixation, J. Catal., 2024, 432, 115436. 

9.H, Chen, C. Liu, W. Guo, Z. Wang, Y. Shi, Y. Yu, L. Wu*, Functionalized UiO-66(Ce) for photocatalytic organic transformation: the role of active sites modulated by ligand functionalization, Catal. Sci. Technol., 2022, 12, 1812–1823.

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（二）超薄二维（2D）纳米材料研究工作

1.C. Liu, M. Chen, Y. Shi, Z. Wang, W. Guo, S. Lin*, J. Bi*, L. Wu*, Ultrathin ZnTi‐LDH nanosheet: A bifunctional Lewis and Brönsted acid photocatalyst for synthesis of N‐benzylideneanilline via a tandem reaction, Chin. J. Catal., 2023, 49, 102–112.

2.C. Liu, Y. Ren, Z. Wang, Y. Shi, B. Guo, Y. Yu, L. Wu*, Flowerlike BiOCl nanospheres fabricated by an in situ self-assembly strategy for efficiently enhancing photocatalysis, J. Colloid. Interf. Sci., 2022, 607, 423–430.

3.C. Liu, Y. Qin, W. Guo, Y. Shi, Z. Wang, Y. Yu, L. Wu*, Visible-light-driven photocatalysis over nano-TiO₂ with different morphologies: From morphology through active site to photocatalytic performance, Appl. Surf. Sci., 2022, 580, 152262.

4.C. Liu, W. Guo, J. Chen, J. Zou, Z. Wang, L. Wu*, Ultrathin ZnTi-LDH nanosheets for photocatalytic aerobic oxidation of aniline based on coordination activation, Catal. Sci. Technol., 2021, 11, 162–170.

5.J. Zheng¹, C. Liu¹, Z. Wang, Y. Shi, Y. Hou, J. Bi*, L. Wu*, Improving photocatalytic degradation of enrofloxacin over TiO₂ nanosheets with Ti³⁺ sites by coordination activation, Appl. Catal. A-Gen., 2023, 660, 119217.

6.Q. Chen, C. Liu, R. Liu, Y. Hou, J. Bi*, J. C. Yu, L. Wu*, Ultrathin 2D/2D MoS₂/Bi₂WO₆ S-scheme heterojunction for boosting photocatalytic degradation of ciprofloxacin, Sep. Purif. Technol., 2025, 355, 129768.

7. D. Li, C. Liu, D. Huang, L. Wu, C. Li, W. Guo*, Optimizing the d-band center of sub-nanometer Pd–Pt alloy clusters for improved photocatalytic dehalogenation of polyhalogenated biphenyls, Sep. Purif. Technol., 2024, 342, 126887.

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