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  • 个人简介
  • 学习经历
  • 工作经历
  • 研究方向
  • 主要论文
  • 主要著作
  • 承担课题

个人信息

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姓名: 袁尚富

部门: 化学与材料学院

性别:

职务:

职称: 绿色通道聘正高

学位: 博士

毕业院校: 厦门大学

联系电话:

电子邮箱: sfyuan@jnu.edu.cn

办公地址: 化学与材料学院205c

通讯地址: 广东省广州市天河区暨南大学化学与材料学院205c

邮编: 510632

传真:

荣誉奖励:

联系方式

1)邮箱:sfyuan@jnu.edu.cn

个人简介

袁尚富,暨南大学特聘教授。2012-2018年,硕博连读于厦门大学;2018-2020年,于清华大学化学系开展博士后工作,师从王泉明教授。2021年11月,就职于暨南大学化学与材料学院,加入超分子配位化学研究所吴涛教授和李丹教授团队。

金属纳米团簇可视为金属纳米颗粒的初始形态,具有明确结构和精确组成,是厘清纳米材料活性位点和反应机理等关键问题的理想模型。针对金属纳米团簇催化的两大难题(催化位点活性低和催化剂稳定性差),以“配体工程”为切入点,开创胺配体修饰纳米团簇新体系,实现团簇的结构和稳定性调控;设计“表面几何错配”策略,构建团簇表面不饱和位点,极大提高了催化活性。近五年以第一或通讯作者在研究聚焦于原子精确金属纳米团簇的控制合成与性能调控。以第一作者或共同通讯作者在J. Am. Chem. Soc.4篇)、Angew. Chem. Int. Ed.6)、Nat. Commun.1篇)和Coord. Chem. Rev.1篇)等国际学术期刊上发表论文28篇,论文总数52篇,总引用3600余次,包括三篇封面文章,二篇入选VIP论文,五篇为热点论文,两篇入选高被引论文。相关成果被JACS主编和Wiley期刊新闻稿Press Release)专门评述和高度评价,入选2024 J. Mater. Chem. A新锐科学家专刊主持国家自然科学基金青年科学基金项目、面上项目、联合基金重点支持项目(联合主持)6项课题,以课题骨干参与国家自然科学基金重大研究计划集成项目、重点项目1项;以第一发明人申请获批中国发明专利3项;受邀担任《Rare Metals》期刊(IF = 8.308)青年编委;入选暨南大学青年科技人才托举工程项目并获ACS青年论坛奖和广州市基础与应用基础研究专题“启航”等奖励。

学习经历

2012/09-2018/06博士,物理化学,厦门大学(硕博连读)

2008/09-2012/06学士,应用化学,华东交通大学。


工作经历

2018/07-2020/11博士后,无机化学,化学系,清华大学。

2021/11-至今,教授,超分子配位化学研究所,化学与材料学院,暨南大学。


研究方向

1)金属团簇化学与配位化学;

2)Lewis酸碱异金属纳米团簇;

3)金属团簇的组装与功能化复合材料;

4)团簇(光/电)催化小分子转化与有机合成反应。

欢迎对上述领域感兴趣的博士后、研究生及本科生加入实验室。


主要论文

     2026年

1)  J.-X. Liu, J.-G. Liang, X.-H. Zhong, B. Wang*, S.-F. Yuan*, Z. Yu, Y. Han, T. Wu* and D. Li, Atomic-Shell Engineering of GeSx-Au Nanorods Synergistically Suppresses Phonon Scattering and Activates N2 for Near-Infrared-Driven Ammonia Synthesis. Research 2026, 9, 1169. (Link)

2)   P.-L. Ou, H.-T. Gao, C.-L. Chen, H. Ma, B. Wang, R. Zhou, D.-S. Li, S.-F. Yuan* and T. Wu*, Direct and green synthesis of dithioesters enabled by dispersant-collaborative semiconductor cluster photocatalysis. Polyoxometalates 2026, 5, 9140111. (Link)


      2025年

1)     L.-M. Zhang, H.-Z. Wei, H. Zhang, X.-H. Zhong, S.-F. Yuan,* B. Wang, J. Wei*, Q. Bai, Z. Zhang, K.-G. Liu, T. Wu* and D. Li*, Carbonylmetallated Palladium Nanoclusters for Visible-Light-Driven Carbonylation under 1 atm of CO. J. Am.  Chem. Soc. 2025, 147, 28073-28084. (Link)

2)       H. Ma, C.-K. Han, J.-X. Liu, Y.-L. Xu, C.-L. Chen, X.-H. Zhong, L.-Y. Chen, R. Zhou, B. Wang*, J. Wang, J. Zhu, K. Wu, D.-S. Li, T. Wu* and S.-F. Yuan*, Semiconductor Cluster with High Reduction Potential and Efficient Charge Transfer Enables Visible-Light-Driven Activation of Inert Organic Substrates. Angew. Chem., Int. Ed.2025, 64, e202509764. (Link)

3)       C.-L. Chen, J.-X. Liu, X.-H. Zhong, P.-L. Ou, J.-X. Liu, Z.-Y. Liang, S.-F. Yuan,* B. Wang,* D.-S. Li and T. Wu*, Dual-Synergistic S-Scheme Heterojunction for Targeting Dibenzylamine via Cascade Photoredox Catalysis of Benzylamine. Angew. Chem., Int. Ed. 2025, 65, e18681. (Link)

4)       Q. Xu, L. Deng, E. Y. Liu, L. M. Zhang, S. F. Yuan*, R. Zhou, B. Z. Wang*, D. S. Li and T. Wu*, Selenolated Copper Hydride Clusters for Visible-Light Photocatalytic Iodofluoroalkylation of Alkynes. Inorg. Chem.2025, 64, 14902-14913. (Link)    

5)     J. X. Liu, H. Ma, S. F. Yuan*, J. N. Zhang, J. G. Liang, R. Zhou, D. S. Li, W. B. Chen, M. D. Li and T. Wu*, Semiconductor clusters enable high-efficiency extraction of hot electrons from gold nanorods for photocatalytic organic conversions. Sci. China Chem. 2025, 68, 3574–3585. (Link)

6)     H.-T. Gao, P.-L. Ou, H. Ma, H. Zhang, L.-M. Zhang, Y.-L. Xu, Y.-Z. Guo, D.-B. Hao, C.-L. Chen, D.-S. Li, S.-F. Yuan* and T. Wu*, Single electron transfer/hydrogen atom transfer synergistic catalysis for green synthesis of benzyl thioesters. Green Chem. 2025, DOI: 10.1039/D5GC01733E. (Link)

7)Y.-Z. Guo, H.-Z. Wei, X.-H. Zhong, C.-Z. Luan, R. Zhou, B. Wang, J. Zheng*, S.-F. Yuan*, T. Wu and D. Li, Ligand-to-ligand charge transfer in anthracene-based cyclic trinuclear complexes enhanced photocatalytic deprotection of Weinreb amides. Inorg. Chem. Front. 2025, 10.1039/D5QI01055A. (Link)

8)   X.-N. Hu, X.-H. Zhong, R.-R. Zhong, L.-M. Zhang, D.-B. Hao, Q. Xu, H.-Z. Wei, R. Zhou, J. Wei, K.-G. Liu, S.-F. Yuan*, D.-S. Li and T. Wu*, Significantly enhanced NIR emission of solid-state clusters based on Cu4Pt2 triggered with volatile organic compounds. Nanoscale 2025, 17, 5829-5837. (Link)

9) H.-W. Luyang, C.-Q. Xu, S.-F. Yuan, J. Li and Q.-M. Wang, Ligand-Protected Golden Fullerene Au42 with Unprecedented Metal Coordination Number of 15, Angew. Chem., Int. Ed. 2025, 64, e202417904. (Link)


2024年

1)     Z. Wang, J.-X. Liu, H. Ma, Y.-L. Xu, R. Zhou, D.-S. Li, S.-F. Yuan* and T. Wu*, Atomic- and molecular-level modulation of Mn2+-related emission using atomically-precise metal chalcogenide semiconductor nanoclusters. Coord. Chem. Rev., 2024, 510, 215844. (Link)

2)     R.-R. Zhong, M. Xie, C.-Z. Luan, L.-M. Zhang, D.-B. Hao, S.-F. Yuan* and T. Wu*,Highly intense NIR emissive Cu4Pt2 bimetallic clusters featuring Pt(I)–Cu4–Pt(I) sandwich kernel. Chem. Sci.,2024, 15, 7552-7559. (Link)

3)   J.-N. Zhang, J. Liu, H. Ma, X. Luo, C.-K. Han, R. Zhou, S.-F. Yuan*, D.-S. Li and T. Wu*, Semiconductor-cluster-loaded ionic covalent organic nanosheets with enhanced photocatalytic reduction reactivity of nitroarenes. J. Mater. Chem. A, 2024, 12, 14398-14407. (Link)

4)   L.-M. Zhang, M. Xie, H.-Z. Wei, S.-F. Yuan*, D.-S. Li and T. Wu*, N-heterocyclic carbene-stabilized Cu9 Clusters with Combined Thermally Activated Delayed Fluorescence and Phosphorescence. Inorg. Chem. Front., 2024, 11, 2498-2507. (Link)

5)Y.-L. Xu, Y. Ding, L.-M. Zhang, H. Ma, J.-X. Liu, J. Zhang, R. Zhou, D.-S. Li, S.-F. Yuan* and T. Wu*, Molecular insight into intrinsic-trap-mediated emission from atomically precise copper-based chalcogenide models. Inorg. Chem. Front.,2024, 11, 409-416. (Link)


     2023年

1)     F. Hu, Z.-J. Guan, S.-F. Yuan and Q.-M. Wang*, Alkynyl-Protected Bimetallic Nanoclusters with a Hybrid Mackay Icosahedral Ag42Cu12Cl Kernel and an Octahedral Ag22Cu12 Kernel. Chem. Asian J 2023, 18, e202300605. (Link)

2)     Z. Wang, H. Ma, J. Zhang, Y. Lan, J.-X. Liu, S.-F. Yuan, X.-P. Zhou, X. Li, C. Qin, D.-S. Li and T. Wu*, The interface microenvironment mediates the emission of a semiconductor nanocluster via surface-dopant-involving direct charge transfer. Chem. Sci. 2023, 14, 10308-10317. (Link)


     2022年

1)Hu, F.; Luyang, H. W.; He, R. L.; Guan, Z. J.; Yuan, S. F.*; Wang, Q. M.*, Face-Centered Cubic Silver Nanoclusters Consolidated with Tetradentate Formamidinate Ligands. J. Am. Chem. Soc. 2022, 144, 19365-19371. (Link)

2) Sun, P.; Xie, M.; Zhang, L.-M.; Liu, J.-X.; Wu, J.; Li, D.-S.; Yuan, S.-F.*; Wu, T.*; Li, D.*, Ultrastable Anti-Acid 'Shield' in Layered Silver Coordination Polymers. Angew. Chem. Int. Ed. 2022, e202209971. (Link)

3) Yuan, S.-F.; Guan, Z.-J.; Wang, Q.-M.*, Identification of the Active Species in Bimetallic Cluster Catalyzed Hydrogenation. J. Am. Chem. Soc. 2022, 144, 11405. (Link)

4) Cheng, X.; Zhong, R. R.; Yuan, S.-F.*; Guan, Z.-J.*; Liu, K.-G.*, Compact accumulation of superatomic silver nanoclusters with an octahedral Ag6 core ligated by trithiane. Nanoscale 2022,14, 10321-10326. (Link)

5) Sun, P.; Tang, X.; Yang, W.; Wang, X.; Zhou, R.*; Chen, N.; Yuan, S. F.*, N-Heterocyclic Thione-Protected Ag4 Tetrahedra and Ag8 Cubes Cocrystallized in a Single Crystal. Inorg. Chem. 202261, 9251-9256. (Link)

6) Yuan, S. F.; Liu, W. D.; Liu, C. Y.; Guan, Z. J.; Wang, Q. M.*, Nitrogen Donor Protection for Atomically Precise Metal Nanoclusters. Chem. Eur. J. 2022, 28, e202104445. (Link)

7) Zhang, L.-M.; Kong, Y.; Zhou, R.*; Yuan, S.-F.*; Wu, T., X-ray photochromism of chalcogenide frameworks linked with metal-amine chelates. Chem. Commun. 2022, 10.1039/D2CC05407H. (Link)

8) Liu, C.-Y.; Yuan, S.-F.; Wang, S.; Guan, Z.-J.; Jiang, D.-e.; Wang, Q.-M.* Structural transformation and catalytic hydrogenation activity of amidinate-protected copper hydride clusters. Nat. Commun. 2022,13, 2082. (Link)

9) Guan, Z.-J.; He, R.-L.; Yuan, S.-F.; Li, J.-J.; Hu, F.; Liu, C.-Y.; Wang, Q.-M.* Ligand Engineering toward the Trade-Off between Stability and Activity in Cluster Catalysis. Angew. Chem. Int. Ed. 202261, e202116965. (Link)


参加工作前:

1) Yuan, S.-F.; Xu, C.-Q.*; Liu W. D.; Zhang J.-X. Li, J.; Wang, Q.-M.* Rod-shaped silver supercluster unveiling strong electron coupling between substituent icosahedral units. J. Am. Chem. Soc. 2021, 143, 12261.(Link)

2) Yuan, S.-F.; He R.-L.; Han X.-S.; Wang J.-Q.; Guan, Z.-J.; Wang, Q.-M.* Robust gold nanocluster protected with amidinates for electrocatalytic CO2 reduction. Angew. Chem., Int. Ed. 2021, 60, 14345. (Link)

3) Yuan, S.-F.; Luyang H.-W.; Lei, Z.; Wan, X.-K.; Li, J.-J.; Wang, Q.-M.* A stable well-defined copper hydride cluster consolidated with hemilabile phosphines. Chem.Commun. 2021, 57, 4315. (Link)

4) Yuan, S.-F.; Guan, Z.-J.; Lei, Z.; Wang, Q.-M.* Atomically precise preorganization of open metal sites on gold nanocluster with high catalytic performance. Angew. Chem. Int. Ed. 2021, 60, 5225. (Link)

5)Yuan, S.-F.; Li J.-J.; Guan, Z.-J.; Lei, Z.; Wang, Q.-M.* Ultrastable Hydrido Gold Nanoclusters with the Protection of Phosphines. Chem.Commun. 2020, 56, 7037. (Link)

6) Yuan, S.-F.; Guan, Z.-J.; Liu, W.-D.; Wang, Q.-M.* Solvent-triggered reversible interconversion of all-nitrogen-donor-protected silver nanoclusters and their responsive optical properties.Nat. Commun. 2019, 10, 4032. (Link)

7) Yuan, S.-F.#; Xu, C. Q.#; Li, J.*; Wang, Q.-M.* A Ligand-Protected Golden Fullerene: The Dipyridylamido Au328+ Nanocluster. Angew. Chem., Int. Ed. 2019, 58, 5906. (Link)

8) Yuan, S.-F.; Li, P.; Tang, Q.; Wan, X. -K.; Nan, Z.-A.; Jiang, D.-E.; Wang, Q.-M.* Alkynyl-protected silver nanoclusters featuring an anticuboctahedral kernel. Nanoscale 2017, 9, 11405. (Link)

9) Lei, Z.; Wan, X.-K.; Yuan, S.-F.; Guan, Z.-J.; Wang, Q.-M.* Alkynyl Approach toward the Protection of Metal Nanoclusters. Acc. Chem. Res. 2018, 51, 2465. (Link)

10) Liu, W.-D.; Wang, J.-Q.; Yuan, S.-F.; Chen, X.; Wang, Q.-M., Chiral Superatomic Nanoclusters Ag47 Induced by the Ligation of Amino Acids. Angew. Chem. Int. Ed. 2021, 60, 11430-11435. (Link)

11) Li, J.-J.; Guan, Z.-J.; Yuan, S.-F.; Hu, F.; Wang, Q.-M., Enriching Structural Diversity of Alkynyl-Protected Gold Nanoclusters with Chlorides. Angew. Chem. Int. Ed. 2021, 60, 6699-6703. (Link)

12) Hu, F.; Guan, Z.-J.; Yang, G.; Wang, J.-Q.; Li, J.-J.; Yuan, S.-F.; Liang, G.-J.; Wang, Q.-M., Molecular Gold Nanocluster Au156 Showing Metallic Electron Dynamics. J. Am. Chem. Soc. 2021, 143, 17059-17067. (Link)

13) Wang, J.-Q.; Shi, S.; He, R.-L.; Yuan, S.-F.; Yang, G.-Y.; Liang, G.-J.; Wang, Q.-M., Total Structure Determination of the Largest Alkynyl-Protected fcc Gold Nanocluster Au-110 and the Study on Its Ultrafast Excited-State Dynamics. J. Am. Chem. Soc. 2020, 142, 18086-18092. (Link)

14) Hu, F.; Li, J.-J.; Guan, Z.-J.; Yuan, S.-F.; Wang, Q.-M., Formation of an Alkynyl-Protected Ag-112 Silver Nanocluster as Promoted by Chloride Released In Situ from CH2Cl2. Angew. Chem. Int. Ed. 2020, 59, 5312-5315. (Link)

15) Han, X.-S.; Luan, X.; Su, H.-F.; Li, J.-J.; Yuan, S.-F.; Lei, Z.; Pei, Y.; Wang, Q.-M., Structure Determination of Alkynyl-Protected Gold Nanocluster Au22(tBuCC)18 and Its Thermochromic Luminescence. Angew. Chem. Int. Ed. 2020, 59, 2309-2312. (Link)

16) Yang, Y.; Jia, T.; Han, Y.-Z.; Nan, Z.-A.; Yuan, S.-F.; Yang, F.-L.; Sun, D., An All-Alkynyl Protected 74-Nuclei Silver(I)-Copper(I)-Oxo Nanocluster: Oxo-Induced Hierarchical Bimetal Aggregation and Anisotropic Surface Ligand Orientation. Angew. Chem. Int. Ed. 2019, 58, 12280-12285. (Link)

17) Guan, Z.-J.; Hu, F.; Yuan, S.-F.; Nan, Z.-A.; Lin, Y.-M.; Wang, Q.-M., The stability enhancement factor beyond eight-electron shell closure in thiacalix[4]arene-protected silver clusters. Chem. Sci. 2019, 10, 3360-3365. (Link)

18) Wang, T.; Zhang, W. H.; Yuan, S. F.; Guan, Z. J.; Wang, Q. M., An alkynyl-protected Au40 nanocluster featuring PhCC–Au–P^P motifs. Chem. Commun.2018, 54, 10367-10370. (Link)

19) Nan, Z.-A.; Wang, Y.; Chen, Z.-X.; Yuan, S.-F.; Tian, Z.-Q.; Wang, Q.-M., Catalyzed assembly of hollow silver-sulfide cluster through self-releasable anion template. Commun. Chem. 2018,1, 99. (Link)

20) Guan, Z.-J.; Zeng, J.-L.; Yuan, S.-F.; Hu, F.; Lin, Y.-M.; Wang, Q.-M., Au57Ag53(C CPh)40Br12: A Large Nanocluster with C-1 Symmetry. Angew. Chem. Int. Ed. 2018, 57, 5703-5707. (Link)

21) Lei, Z.; Wan, X.-K.; Yuan, S.-F.; Wang, J.-Q.; Wang, Q.-M., Alkynyl-protected gold and gold-silver nanoclusters. Dalton Trans. 2017, 46, 3427-3434. (Link)

22) Lei, Z.; Guan, Z.-J.; Pei, X.-L.; Yuan, S.-F.; Wan, X.-K.; Zhang, J.-Y.; Wang, Q.-M., An Atomically Precise Au10Ag2 Nanocluster with Red-Near-IR Dual Emission. Chem.- Eur. J. 2016, 22, 11156-11160. (Link)

23) Yin, J.; Cao, J.; He, X.; Yuan, S.; Sun, S.; Li, J.; Zheng, N.; Lin, L., Improved stability of perovskite solar cells in ambient air by controlling the mesoporous layer. J. Mater. Chem. A 2015, 3, 16860-16866. (Link)

24) Wan, X.-K.; Xu, W. W.; Yuan, S.-F.; Gao, Y.; Zeng, X.-C.; Wang, Q.-M., A Near-Infrared-Emissive Alkynyl-Protected Au-24 Nanocluster. Angew. Chem. Int. Ed. 2015,54, 9683-9686. (Link)

25) Wan, X.-K.; Yuan, S.-F.; Tang, Q.; Jiang, D.-E.; Wang, Q.-M.* Alkynyl-protected Au23 nanocluster: a 12-electron system. Angew. Chem., Int. Ed2015, 54, 5977. (Link)

26) Wan, X.-K.; Tang, Q.; Yuan, S.-F.; Jiang, D.-e.; Wang, Q.-M., Au-19 Nanocluster Featuring a V-Shaped Alkynyl-Gold Motif. J. Am. Chem. Soc. 2015,137, 652-655. (Link)

27) Cao, J.; Yin, J.; Yuan, S.; Zhao, Y.; Li, J.; Zheng, N., Thiols as interfacial modifiers to enhance the performance and stability of perovskite solar cells. Nanoscale 2015,7, 9443-9447. (Link)

28) Wan, X.-K.; Yuan, S.-F.; Lin, Z.-W.; Wang, Q.-M., A Chiral Gold Nanocluster Au-20 Protected by Tetradentate Phosphine Ligands. Angew. Chem. Int. Ed. 2014, 53, 2923-2926. (Link)


主要著作

承担课题

  • 国家自然科学基金-面上基金                           (主持

  • 国家自然科学基金-青年基金                           (主持

  • 国家自然科学基金-重大研发计划集成项目       (子课题负责人)

  • 国家自然科学基金-联合基金重点支持项目       (联合主持)

  • 广州市科技计划项目青年博士启航项目            (主持)

  • 暨南大学第四层次人才引进启动经费               主持

  • 暨南大学科协青年科技人才托举工程项目        (主持)

  • 暨南大学学科建设优秀青年骨干项目               主持

  • 暨南大学中央高校基本科研业务项目               主持


发明专利

1)王泉明,袁尚富;多铜团簇及其制备方法,中国发明专利NO. ZL201811018728.1 (CN 110872311B)。

2) 袁尚富,钟瑞茹,王春凤,周瑞,吴涛,李丹,一种铜-铂多核团簇及其制备方法与应用,2023-02-10中国发明专利;NO. ZL202310092150.9 (CN 115785949 B)

3) 袁尚富,马浩,周瑞,吴涛,李丹,一种光催化芳香硝基化合物为氧化偶氮苯类化合物的方法,2024-04-30中国发明专利;NO. ZL202410533960.8




讲授课程

1)无机化学(创新班);

2)基础化学;

3)超分子配位化学;

4)高等无机化学;

3)无机材料化学前沿与展望;

4)无机化学(创新班)实验;

5)基础化学实验。


荣誉奖励

社会职务

担任Rare Metals青年编委