张宏

博士，副教授，硕导，云南大学高层次引进人才—东陆青年学者

联系方式：18100930028；hongzhang@ynu.edu.cn

通讯地址：昆明市呈贡大学城东外环南路，云南大学电镜中心202室

张宏博士毕业于兰州大学和美国阿贡国家实验室，2023年加入云南大学材料与能源学院，目前负责电镜中心电镜原位设备，担任西北四省电子显微学会秘书长，常务理事。主要研究方向包括功能材料原子尺度结构与电子结构、电镜原位科研仪器的研发与应用、纳米焊接技术开发及焊接机理研究。近年以第一作者或通讯作者发表论文21篇，获得授权发明专利7项，正在审查发明专利7项。主持国自然基金面上1项、青年1项、甘肃省重点研发1项。

教育和工作经历

1. 2023-11至今，云南大学，材料与能源学院&电镜中心，副教授

2. 2022-04至2023-10，兰州大学，材料与能源学院&电镜中心，讲师

3. 2017-11至2022-03，兰州大学，物理科学与技术学院&电镜中心，实验师

4. 2015-09至2017-02，美国阿贡国家实验室，联合培养博士

5. 2011-09至2016-12，兰州大学，凝聚态物理，博士

6. 2013-06至2013-09，英国谢菲尔德大学，材料科学与工程，访问硕士

7. 2007-09至2011-06，兰州大学，材料物理，学士

研究领域

1. 功能材料原子尺度结构与电子结构。

2.原位电镜技术（气、液、热、冷、电、力）解析功能材料构效关系。

3.电镜原位科研仪器的研发与应用。

4.纳米焊接技术开发及焊接机理研究。

5.功能纳米材料控制合成及应用研究。

科研与教学情况

1.国家自然科学基金委员会，面上项目，12274185，微/纳米焊接技术及多场耦合作用下原子尺度表界面结构对焊接性能调控的原位电镜研究，2023-01-01至2026-12-31，在研，主持。

2.国家自然科学基金委员会，青年科学基金项目，51801088，多场耦合作用下纳米焊料合金结构演变和可焊性机理的原位电镜研究，2019-01-01至2021-12-31，结题，主持。

3.甘肃省科学技术厅，重点研发计划——工业类，23YFGA0006，下一代先进智能制造关键技术——微纳米连接开发应用，2023-08至2025-08，在研，主持。

4.甘肃省科学技术厅，自然科学基金面上项目，20JR5RA255，纳米焊料合金熔点尺寸效应的原位球差电镜研究，2020-11至2022-10，结题，主持。

5.国家自然科学基金委员会，面上项目，12374011，掺杂铁氧体离子占位及磁电性能调控机理的原子尺度电子显微学研究，2024-01-01至2027-12-31，在研，参与。

6.国家自然科学基金委员会，面上项目，52271138，两级网状结构(TiC+Ti2Cu)/TC4复合材料原位构筑与力学特性，2023-01-01至2026-12-31，在研，参与。

7.国家自然科学基金委员会，面上项目，22279049，二维Dion-Jacobson（D-J）型CsPbI3的层间耦合增强结构设计及光伏特性调控的研究，2023-01-01至2026-12-31，在研，参与。

8.国家自然科学基金委员会，青年科学基金项目，51801089，金纳米棒和肝癌细胞相互作用受近红外激光影响的高分辨电镜研究，2019-01-01至2021-12-31，结题，参与。

9.中国科协青少年科技中心，英才计划物理学科潜质测评题库开发，2018YXIP338，英才计划物理学科潜质测评题库开发，2018-10至2019-10，结题，参与。

主要学术成果

（一）代表性论文

1. Jia-Wei Zhao^#, Kaihang Yue^#,Hong Zhang^#, Shu-Yin Wei, Jiawei Zhu, Dongdong Wang, Junze Chen, Vyacheslav Yu. Fominski, Gao-Ren Li. The formation of unsaturated IrOx in SrIrO3 by cobalt-doping for acidic oxygen evolution reaction.Nature Communications, 2024 15(1):2928.

2.Xiuliang Yuan, Bing Wang, Ying Sun*, Huaiming Guo, Kewen Shi, Sihao Deng*, Lunhua He, Huiqing Lu,Hong Zhang*, Shengdi Xu, Yi Du, Weichang Hao, Shengqi Chu, Zhijie Ma, Shihai An, Jin Cui, Dongmei Hu, Huiming Han, Cong Wang*, High-Entropy Anti-Perovskites with Enhanced Negative Thermal Expansion Behavior,Advanced Functional Materials, 2024.

3. Xia Zhou; Junwei Zhang; Bin Chen; Cong Ma; Junfeng Huang; Hong Zhang*; Yong Peng*, In situ transmission electron microscopy (TEM) study on the structural evolution behavior of nano Sn sheets under a thermal field, Journal of Materials Chemistry C, 2024, https://doi.org/10.1.

4. Ruoyu Wei; Mansheng Liao; Lidan Sun; Qingfeng Zhang;Hong Zhang*; Lei Zhang*, Zhongxin Song*; Opposite Electron Transfer Induced High Valence Mo Sites for Boosting the Water Splitting Performance of Ir Atoms,ACS Applied Materials Interfaces, 2024, 16(6): 7141-7151.

5. Xu Zhang; Lang Ran; Yajuan Zheng; Heng Zhang; Lingxiao Zhu; Lincheng Zhou*;Hong Zhang*, A novel Cu single-atom catalyst prepared through the adsorption characteristics of MoS2: from preparation to application,Journal of Materials Chemistry A, 2024, 12(3): 1582-1594.

6. Zhongxin Song; Xia Zhou; Lidan Sun; Qingfeng Zhang; Yongliang Li; Xiangzhong Ren;Hong Zhang*; Lei Zhang*, Enhancing electron interaction between Pt and support for superior electrochemical performance through atomic layer deposition of tungsten oxide,Journal of Colloid and Interface Science, 2024, 654: 1272-1280.

7. Li An^#;Hong Zhang^#; Jiamin Zhu; Shibo Xi; Bolong Huang; Mingzi Sun; Yong Peng; Pinxian Xi*; Chun‐Hua Yan, Balancing Activity and Stability in Spinel Cobalt Oxides through Geometrical Sites Occupation towards Efficient Electrocatalytic Oxygen Evolution, Angewandte Chemie International Edition, 2023, 62(3): e202214600

8. Hongcen Yang; Fei Ma; Niandi Lu; Shuhao Tian; Guo Liu; Ying Wang; Zhixia Wang; Di Wang; Kun Tao;Hong Zhang*; Shanglong Peng*, Transition metal single atom-optimized g-C3N4 for the highly selective electrosynthesis of H2O2 under neutral electrolytes,Nanoscale Horizons, 2023, 8: 695-704. SCIE.

9. Bangmin Zhang*;Hong Zhang*; Xiao Chi; Ping Yang; Jun Ding; Jingsheng Chen; Gan Moog Chow, Quasi-two-dimensional magnetic properties in atomic layer resolved La0.7Sr0.3MnO3/LaAlO3 superlattices, Physical Review B, 2023, 107(8): 085143.

10. Jia-Wei Zhao^#;Hong Zhang^#; Cheng-Fei Li; Xia Zhou; Jin-Qi Wu; Feng Zeng; Jie Zhang*; Gao-Ren Li*, Key Roles of Surface Fe Sites and Sr Vacancies in Perovskite for Efficient Oxygen Evolution Reaction Participated by Lattice Oxygen Oxidation,Energy and Environmental Science, 2022, 15: 3912-3922.

11.Peng Peng*, Li Lu, Zijie Liu, Yuanli Xu, Xudong Zhang, Zhikun Ma,Hong Zhang*, Min Guo, Lin Liu*, Investigation on influence of Ta on microstructure evolution of directionally solidified Ni-based superalloys, Journal of Alloys and Compounds, 2022, 927,167009.

12.Peng Peng*, Xiantao Yan, Wanchao Zheng, Yuanli Xu, Xudong Zhang, Zhikun Ma,Hong Zhang*, Microstructure and mechanical properties of heat-treated Mg–6.2Li–3.5Al–3Y alloy, Materials Science and Engineering: A, 2022, 857, 144039.

13.Deng Xia^#;Hong Zhang^#; Zhang Junwei, Lei Dongshen, Peng Yong*, Synergistic effect of hierarchical nanopores in Co-doped cobalt oxide 3D flowers for electrochemical energy storage,RSC Advances, 2020,10, 43825-43833.

14. Qian Jinmei; Guo Xiaosong; Wang Tongtong; Liu Peitao;Hong Zhang*; Gao Daqiang*, Bifunctional Porous Co-Doped NiO Nanoflowers Electrocatalysts for Rechargeable Zinc-Air Batteries,Applied Catalysis B: Environmental, 2019, 250: 71-77.

15.Yin Jie^#; Jin Jing^#;Hong Zhang^#; Lu Min; Peng Yong; Huang Bolong; Xi Pinxian*; Yan Chun Hua, Atomic Arrangement in Metal-Doped NiS2 Boosts the Hydrogen Evolution Reaction in Alkaline Media,Angewandte Chemie International Edition, 2019, 131(51): 18849-18855.

16.Zhang Xuan^#;Hong Zhang^#; Zheng Xiujun; Walls Michael; Peng Yong*, A novel 96.5Sn3Cu0.5Mn nanosolder with enhanced wettability applied to nanosoldering of WO3 nanomaterial,Nanotechnology, 2019, 30(19): 195302.

17.Hong Zhang^#; Deng Xia^#; Zhang Junwei; Xue Desheng; Huang Yuanqing; Bai Feiming; Inkson, Beverly J; Peng Yong*, Phase transformation of Sn-based nanowires under electron beam irradiation,Journal of Materials Chemistry C, 2015, 3(21): 5389-5397.

18.Hong Zhang; Zhang Junwei; Lan Qianqian; Ma Hongbin; Qu Ke; Inkson Beverley J; Mellors Nigel J; Xue Desheng; Peng Yong*, Nanoscale characterization of 1D Sn-3.5Ag nanosolders and their application into nanowelding at the nanoscale, Nanotechnology, 2014, 25(42): 425301.

19.张宏，周保范，李华，蒙萱，高亚虎，彭亮，邓霞，张军伟，雷东升，彭勇*,兰州大学电镜中心-大型仪器共享平台的建设及核心竞争力,电子显微学报, 2021,3 (40): 325-333.

20.张宏，周保范，蒙萱，李华，雷东升，孟莉，邓霞，张军伟，高亚虎，彭亮，朱柳，关超帅，胡阳，彭勇*，兰州大学电镜中心-大型仪器共享平台的管理及效益最大化，电子显微学报, 2020, (39): 6.

21.张宏，周保范，罗洪刚，彭勇. "英才计划"物理学科潜质评测系统开发.实验技术与管理, 2020, 37(3): 31-34.

（二）授权专利

1.张宏; 訾浩然; 彭勇; 周霞; 张明豫; 严宇; 刘昱; 马聪; 陈春梅; 摆永龙; 一种应用于纳米粒子外加场驱动自组装的透射电镜原位样品杆, 2023-2-28, 中国, CN202310175632.0

2.彭勇;张宏; 贝芙莉·尹格申; 托尼·卡力斯 ; 用于微/纳米尺度焊接的一维锡银铜三元纳米焊料,2013-10-23, CN201310250546.8

3. 彭勇;张宏; 贝芙莉·尹格申; 托尼·卡力斯 ; 用于微/纳米焊接的一维锡银二元纳米焊料, 2013-11-27, 中国, CN201310249805.5

4. 彭勇;张宏; 贝芙莉·尹格申; 托尼·卡力斯 ; 用于微/纳米尺度焊接的一维纳米焊料及其制备方法,2012-11-14, 中国, CN201210150049.6

5. 彭勇; 郑少川;张宏; 张军伟; 邓霞; 朱柳; 蒙萱; 关超帅 ; 适用于FIB技术制样的透射电子显微镜磁电原位样品杆, 2020-12-14, 中国, CN202011471198.3

6. 彭勇; 张悬; 郑修军;张宏; 马鸿斌; 关超帅; 张军伟; 薛德胜 ; 一种电镜原位加热装置结合焊料的纳米焊接方法, 2016-12-6, 中国, CN201611107702.5

7. 彭勇; 张军伟; 金斌玲; 谢凤珍;张宏; 马鸿斌; 齐阔; 马传生; 张俊丽; 薛德胜; 纳米操纵器, 2012-7-25, 中国, CN201210045621.2

Hong Zhang

Ph.D., Associate Professor, Master Supervisor, Yunnan University High-level Introduced Talents--Donglu Young Scholars

Contact information：18100930028; hongzhang@ynu.edu.cn;zhang198908@outlook.com

Hong Zhang is a master instructormajoring in material and physics,and in charge of the electron microscopy in-situ equipment in the electron microscopy center of Yunnan University.Hong is Secretary General of the Electron Microscopy Society of Northwest China's four provinces and the executive director. Her main research interests include atomic scale structure and electronic structure of functional materials, R&D and application of electron microscope in-situ scientific research instruments, development of nano-welding technology and research on welding mechanism.She has published21 papers as the first author or corresponding author, and has obtained 7 authorized invention patents and 7 invention patents under examination. Currently presided over more than 10 projects of various types, including2 National Natural Science Foundation of China and 2 Gansu Provincial Natural Science Foundation.

Education and Work Experience

1. 2023-11 to present, Yunnan University, School of Materials and Energy & Electron Microscopy Center, Associate Professor

2. 2022-04 to 2023-10, Lanzhou University, School of Materials and Energy & Electron Microscopy Center, Lecturer

3. 2017-11 to 2022-03, Lanzhou University, School of Physical Science and Technology & Electron Microscopy Center, Laboratory Technician

4. 2015-09 to 2017-02, Argonne National Laboratory, USA, Joint PhD

5. 2011-09 to 2016-12, Lanzhou University, Condensed Matter Physics, PhD

6. 2013-06 to 2013-09, University of Sheffield, UK, Materials Science and Engineering, Visiting Master

7. 2007-09 to 2011-06, Lanzhou University, Materials Physics, B.S.

Areas of Concern

1.Atomic scale structure and electronic structure of functional materials.

2.In-situ electron microscopy (gas, liquid, heat, cold, electricity, force) to analyze the conformational relationship of functional materials.

3. R&D and application of in-situ electron microscope research instruments.

4.Development of nano-welding technology and welding mechanism research.

5.Controlled synthesis and application of functional nanomaterials.

Research and Teaching

1. National Natural Science Foundation of China, Top Project, 12274185, In-situ Electron Microscopy Study of Micro/Nano Welding Technology and the Regulation of Weldability by Atomic Scale Surface-Interface Structures under Multi-field Coupling, 2023-01-01 to 2026-12-31, under research, presided.

2. National Natural Science Foundation of China, Young Science Foundation Program, 51801088, In-situ electron microscopy study on the mechanism of structural evolution and weldability of nano-solder alloys under multi-field coupling, 2019-01-01 to 2021-12-31, completed, presided.

3. Gansu Provincial Department of Science and Technology, Key R&D Program - Industry, 23YFGA0006, Next Generation Advanced Intelligent Manufacturing Key Technology - Micro and Nano Connectivity Development and Application, 2023-08 to 2025-08, under research, presided.

4. Gansu Provincial Department of Science and Technology, Natural Science Foundation, 20JR5RA255, In-situ Spherical Differential Electron Microscopy Study on Melting Point Size Effect of Nano-solder Alloy, 2020-11 to 2022-10, completed, presided.

5. National Natural Science Foundation of China, Top Project, 12374011, Atomic Scale Electron Microscopy Study on the Mechanisms of Ion Occupancy and Magnetoelectric Properties Modulation in Doped Ferrite, 2024-01-01 to 2027-12-31, in progress, participated.

6. National Natural Science Foundation of China, Top Project, 52271138, In-situ Construction and Mechanical Characterization of Two-level Mesh (TiC+Ti2Cu)/TC4 Composites, 2023-01-01 to 2026-12-31, under research, participation.

7. National Natural Science Foundation of China (NSFC), Top Project, 22279049, Design of interlayer coupled reinforced structure and regulation of photovoltaic properties of two-dimensional Dion-Jacobson (D-J)-type CsPbI3, 2023-01-01 to 2026-12-31, under research, participation.

8. National Natural Science Foundation of China, Youth Science Foundation Program, 51801089, High-resolution electron microscopy study on the interaction between gold nanorods and hepatocellular carcinoma cells as affected by near-infrared laser light, 2019-01-01 to 2021-12-31, Completed, Participated.

9. Youth Science and Technology Center of China Association for Science and Technology, Development of Question Bank for Physics Potential Assessment of Excellence Program, 2018YXIP338, Development of Question Bank for Physics Potential Assessment of Excellence Program, 2018-10 to 2019-10, Concluded, Participation.

Academic Achievements

1. Jia-Wei Zhao^#, Kaihang Yue^#,Hong Zhang^#, Shu-Yin Wei, Jiawei Zhu, Dongdong Wang, Junze Chen, Vyacheslav Yu. Fominski, Gao-Ren Li. The formation of unsaturated IrOx in SrIrO3 by cobalt-doping for acidic oxygen evolution reaction.Nature Communications, 2024 15(1):2928.

2.Xiuliang Yuan, Bing Wang, Ying Sun*, Huaiming Guo, Kewen Shi, Sihao Deng*, Lunhua He, Huiqing Lu,Hong Zhang*, Shengdi Xu, Yi Du, Weichang Hao, Shengqi Chu, Zhijie Ma, Shihai An, Jin Cui, Dongmei Hu, Huiming Han, Cong Wang*, High-Entropy Anti-Perovskites with Enhanced Negative Thermal Expansion Behavior,Advanced Functional Materials, 2024.

3. Xia Zhou; Junwei Zhang; Bin Chen; Cong Ma; Junfeng Huang; Hong Zhang*; Yong Peng*, In situ transmission electron microscopy (TEM) study on the structural evolution behavior of nano Sn sheets under a thermal field, Journal of Materials Chemistry C, 2024, https://doi.org/10.1.

4. Ruoyu Wei; Mansheng Liao; Lidan Sun; Qingfeng Zhang;Hong Zhang*; Lei Zhang*, Zhongxin Song*; Opposite Electron Transfer Induced High Valence Mo Sites for Boosting the Water Splitting Performance of Ir Atoms,ACS Applied Materials Interfaces, 2024, 16(6): 7141-7151.

5. Xu Zhang; Lang Ran; Yajuan Zheng; Heng Zhang; Lingxiao Zhu; Lincheng Zhou*;Hong Zhang*, A novel Cu single-atom catalyst prepared through the adsorption characteristics of MoS2: from preparation to application,Journal of Materials Chemistry A, 2024, 12(3): 1582-1594.

6. Zhongxin Song; Xia Zhou; Lidan Sun; Qingfeng Zhang; Yongliang Li; Xiangzhong Ren;Hong Zhang*; Lei Zhang*, Enhancing electron interaction between Pt and support for superior electrochemical performance through atomic layer deposition of tungsten oxide,Journal of Colloid and Interface Science, 2024, 654: 1272-1280.

7. Li An^#;Hong Zhang^#; Jiamin Zhu; Shibo Xi; Bolong Huang; Mingzi Sun; Yong Peng; Pinxian Xi*; Chun‐Hua Yan, Balancing Activity and Stability in Spinel Cobalt Oxides through Geometrical Sites Occupation towards Efficient Electrocatalytic Oxygen Evolution, Angewandte Chemie International Edition, 2023, 62(3): e202214600

8. Hongcen Yang; Fei Ma; Niandi Lu; Shuhao Tian; Guo Liu; Ying Wang; Zhixia Wang; Di Wang; Kun Tao;Hong Zhang*; Shanglong Peng*, Transition metal single atom-optimized g-C3N4 for the highly selective electrosynthesis of H2O2 under neutral electrolytes,Nanoscale Horizons, 2023, 8: 695-704. SCIE.

9. Bangmin Zhang*;Hong Zhang*; Xiao Chi; Ping Yang; Jun Ding; Jingsheng Chen; Gan Moog Chow, Quasi-two-dimensional magnetic properties in atomic layer resolved La0.7Sr0.3MnO3/LaAlO3 superlattices, Physical Review B, 2023, 107(8): 085143.

10. Jia-Wei Zhao^#;Hong Zhang^#; Cheng-Fei Li; Xia Zhou; Jin-Qi Wu; Feng Zeng; Jie Zhang*; Gao-Ren Li*, Key Roles of Surface Fe Sites and Sr Vacancies in Perovskite for Efficient Oxygen Evolution Reaction Participated by Lattice Oxygen Oxidation,Energy and Environmental Science, 2022, 15: 3912-3922.

11.Peng Peng*, Li Lu, Zijie Liu, Yuanli Xu, Xudong Zhang, Zhikun Ma,Hong Zhang*, Min Guo, Lin Liu*, Investigation on influence of Ta on microstructure evolution of directionally solidified Ni-based superalloys, Journal of Alloys and Compounds, 2022, 927,167009.

12.Peng Peng*, Xiantao Yan, Wanchao Zheng, Yuanli Xu, Xudong Zhang, Zhikun Ma,Hong Zhang*, Microstructure and mechanical properties of heat-treated Mg–6.2Li–3.5Al–3Y alloy, Materials Science and Engineering: A, 2022, 857, 144039.

13.Deng Xia^#;Hong Zhang^#; Zhang Junwei, Lei Dongshen, Peng Yong*, Synergistic effect of hierarchical nanopores in Co-doped cobalt oxide 3D flowers for electrochemical energy storage,RSC Advances, 2020,10, 43825-43833.

14. Qian Jinmei; Guo Xiaosong; Wang Tongtong; Liu Peitao;Hong Zhang*; Gao Daqiang*, Bifunctional Porous Co-Doped NiO Nanoflowers Electrocatalysts for Rechargeable Zinc-Air Batteries,Applied Catalysis B: Environmental, 2019, 250: 71-77.

15.Yin Jie^#; Jin Jing^#;Hong Zhang^#; Lu Min; Peng Yong; Huang Bolong; Xi Pinxian*; Yan Chun Hua, Atomic Arrangement in Metal-Doped NiS2 Boosts the Hydrogen Evolution Reaction in Alkaline Media,Angewandte Chemie International Edition, 2019, 131(51): 18849-18855.

16.Zhang Xuan^#;Hong Zhang^#; Zheng Xiujun; Walls Michael; Peng Yong*, A novel 96.5Sn3Cu0.5Mn nanosolder with enhanced wettability applied to nanosoldering of WO3 nanomaterial,Nanotechnology, 2019, 30(19): 195302.

17.Hong Zhang^#; Deng Xia^#; Zhang Junwei; Xue Desheng; Huang Yuanqing; Bai Feiming; Inkson, Beverly J; Peng Yong*, Phase transformation of Sn-based nanowires under electron beam irradiation,Journal of Materials Chemistry C, 2015, 3(21): 5389-5397.

18.Hong Zhang; Zhang Junwei; Lan Qianqian; Ma Hongbin; Qu Ke; Inkson Beverley J; Mellors Nigel J; Xue Desheng; Peng Yong*, Nanoscale characterization of 1D Sn-3.5Ag nanosolders and their application into nanowelding at the nanoscale, Nanotechnology, 2014, 25(42): 425301.

19.Hong Zhang, Baofan Zhou, Hua Li, Xuan Meng, Yahu Gao, Liang Peng, Xia Deng, Junwei Zhang, Dongsheng Lei, Yong Peng*, Construction and Core Competitiveness of Electromicroscopy Center-Large Instrumentation Sharing Platform of Lanzhou University,Journal of Chinese Electron Microscopy Society, 2021, 3 (40): 325-333.

20.Hong Zhang, Baofan Zhou, Xuan Meng, Hua Li, Dongsheng Lei, Li Meng, Xia Deng, Junwei Zhang, Yahu Gao, Liang Peng, Liu Zhu, Chaoshuai Guan, Yang Hu, Yong Peng*, Lanzhou University Electron Microscopy Center-Management and Benefit Maximization of Large Instrumentation Sharing Platform,Journal of Chinese Electron Microscopy Society, 2020, (39): 6.

21.Hong Zhang, Zhou Baofan, Luo Honggang, Peng Yong. Development of Physics Potential Assessment System for "Program of Excellence".Experimental Technology and Management, 2020, 37(3): 31-34.

22.Zhang, Hong; Zi, Haoran; Peng, Yong; Zhou, Xia; Zhang, Mingyu; Yan, Yu; Liu, Yu; Ma, Cong; Chen, Chunmei; Pendulum, Yonglong; A transmission electron microscopy in-situ sample rod for nanoparticle-applied applied field-driven self-assembly, 2023-2-28,China Invention Patents, CN202310175632.0

23. Peng, Y.;Zhang Hong.; Beverly Ingershon; Tony Kallis ; One-dimensional tin-silver-copper ternary nanosolder for micro/nanoscale soldering, 2013-10-23,China Invention Patents,CN201310250546.8

24. Peng, Y.;Zhang Hong.; Beverly Ingershon; Tony Kallis ; One-dimensional tin-silver binary nanosolder for micro/nanoscale soldering, 2013-11-27,China Invention Patents, CN201310249805.5

25. Peng, Yong.;Zhang Hong; Beverly Ingershon; Tony Kallis ; One-dimensional nanosolder and its preparation method for micro/nanoscale soldering, 2012-11-14,China Invention Patents, CN201210150049.6

26. Peng, Y.; Zheng, S. Chuan; Zhang,Zhang Hong, J. W.; Deng, X.; Zhu, L.; Meng, Xuan; Guan, Chao-shuai ; Transmission electron microscope magneto-electric in-situ sample rod suitable for sample preparation by FIB technique, 2020-12-14,China Invention Patents, CN202011471198.3

27. Peng, Y.; Zhang, H.; Zheng, Xiujun;Zhang Hong; Ma, H.B.; Guan, Chaoshuai; Zhang, J.W.; Xue, D.S. ; A nano-soldering method of electron microscope in-situ heating device combined with solder, 2016-12-6,China Invention Patents, CN201611107702.5

28.PengYong;ZhangJunwei;JinBinling;XieFengzhen;ZhangHong;MaHongbin;Qi kuo;MaChuansheng;ZhangJunli;XueDesheng; nano manipulator, 2012-7-25,China Invention Patents, CN201210045621.2