胡国睿
电子邮件 kuojueihu@nju.edu.cn
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个人简介

准聘助理教授,博士生导师。于2016年毕业于英国伯明翰大学,并在比利时天主教鲁汶大学以及申慱sunbet官网入口物理学院担任博士后研究员。目前,主要致力于开发原子团簇强束流源及相关技术的研究。研究领域包括使用物理方法精确制备原子团簇束流源,并收集团簇,将它们转移到惰性收集流体介质中;研究钝化原子和分子团簇在流体中的受控组装行为;使用球差校正扫描透射电子显微镜研究原子团簇的形貌与催化系统学,并成功制备功能性电子元件材料。他主持了国家自然科学基金面上项目1项,并作为核心成员参与了3项宏量化原子簇设备项目。在申慱sunbet官网入口团簇研究组,他参与了第4代至第6代团簇束流源的开发工作,其中第五代设备荣获南京市创新成果奖。迄今为止,已发表论文30余篇。

担任课程


研究领域

原子团簇束流源技术

纳米尺度科学


学术成果


1.  In situ heating characterization of structural evolution and size-dependent melting point depression in gold nanoclusters: a comprehensive thermodynamic investigation. Shengyong Hu, Kuo-Juei Hu, Zixiang Zhao, Yongxin Zhang, Syed Adil Shah, Siqi Lu, Wuwen Zhu, Sichen Tang and Fengqi Song. NanoscaleDOI https://doi.org/10.1039/D4NR02111H(2024)

2.  Coalescence behavior of size-selected gold and tantalum nanoclusters under electron beam irradiation: insights into nano-welding mechanisms. Shengyong Hu, Syed Adil Shah, Syed Niaz Ali Shah, Zixiang Zhao, Wuwen Zhu, Yongxin Zhang, Siqi Lu, Sichen Tang, Kuo-Juei Hu* and  Fengqi Song*. Nanoscale Adv., 2024,6, 4237-4246 (2024)

3. Oxidation behavior and atomic structural transition of size-selected coalescence-resistant tantalum nanoclusters    Shengyong Hu, Kuo-Juei Hu, Yongxin Zhang, Syed Adil Shah, Zixiang Zhao, Zewen Zuo, Siqi Lu, Sichen Tang, Wuwen Zhu, Liu Fang and Fengqi Song.   Nanotechnologyhttps://doi.org/10.1088/1361-6528/ad4557    (2024)

4.  Influence of ligands on the optical properties of rod-shaped Au 25 nanoclusters. Z Zuo, KJ Hu, S Lu, S Hu, S Tang, Y Zhang, Z Zhao, D Zheng, F Song.        Nanoscale 15 (36), 15043-15049   (2023)

5. Amorphous Metal-Organic Framework Derived Electrocatalyst to Boost Water Oxidation.     Qingxi Zhai, Kuo-Juei Hu, Yuxuan Shi, Hurong Ji, Hao Wu, Yilun Ren, Biao Wang, Shaochun Tang, Yujie Ma, Mingjin Cui*, and Xiangkang Meng*    J. Phys. Chem. Lett. 2023, 14, 5, 1156–1164      (2023)

6.  Electrical devices designed based on inorganic clusters.   KJ Hu, W Yan, M Zhang, F Song        Nanotechnology 33 502001    (2022)

7.  From amorphous to ordered: structural transformation of pd nanoclusters in 1-pentyne hydrogenation reactions.Hu, K. J., Ellis, P. R., Brown, C. M.,  Bishop, P. T., &  Palmer, R. E.        Journal of Catalysis, 397, 58-63    (2021)

8.  Facet-Guiding Deposition of Size-Selected Au Cluster Size on MgO Cube. Mingyu Wang, Kuojuei Hu*, Zewen Zuo, Shengyong Hu & Siqi LuJournal of Cluster Science https://doi.org/10.1007/s10876-021-02022-7   (2021)

9.  An ultrasensitive hydrogen fuse based on a single Pd break junction.        Wang, M., Hu, K.*, Zhang, K., Zhang, M., & Bu, H. (2020).  Sensors and Actuators, A: Physical, 2020, 301, 111709.     (2020)

10. Beam generation and structural optimization of size-selected Au 923 clusters.S Lu, K Hu, Z Zuo, S Hu, G Wang, F Song, L Cao  Nanoscale Advances 2 (7), 2720-2725       (2020)

11. Synthesis of Au doped Ag nanoclusters and the doping effect of Au atoms on their physical and optical properties.   Syed Adil Shah, Kuo-Juei Hu, Muhammad Naveed, Syed Niaz Ali Shah, Shengyong Hu, Siqi Lu and Fengqi Song      Mater. Res. Express 7 (2020) 016506       (2020)

12. Atomic Resolution Observation of a Size-Dependent Change in the Ripening Modes of Mass-Selected Au Nanoclusters Involved in CO Oxidation.      K-J Hu, S. R. Plant, P. R. Ellis, C. M. Brown, P. T. Bishop, and R. E. Palmer     J. Am. Chem. Soc., 137 (48), 15161–15168  (2015)

13. The effects of 1-pentyne hydrogenation on the atomic structures of size-selected AuN and PdN (N= 923 and 2057) nanoclusters.K-J Hu, S. R. Plant, P. R. Ellis, C. M. Brown, P. T. Bishop, and R. E. Palmer        Physical Chemistry Chemical Physics, 16, 26631-26637 (2014)

14. Low-temperature decomposition of methanol on Au nanoclusters supported on a thin film of Al2O3/NiAl(100).  K-J. Hu, C.S. Chao, H.W. Shiu, C.T. Wang, W.R. Lin, Y.J. Hsu, M.F. Luo,     Phys. Chem. Chem. Phys., 13, 3281-3290       (2011)