Research Team

Faculty

Zhong ZhangMore

  • Title:Professor
  • Tel:zhangzhongcc@tongji.edu.cn
  • Office:Curtain brothel of Shanghai West Campus
  • Information of Tutors:Doctoral supervisor

Zhang Zhong, Professor, Party Secretary, College of Physical Science and Engineering, Tongji University, Executive Deputy Director of the Key Laboratory of Advanced Microstructure Materials of the Ministry of Education, New Century Talents of the Ministry of Education; He has presided over 2 projects of National Natural Science Foundation, 1 project of NSAF Joint Fund and 1 project of Large scientific Equipment Joint Fund, 1 project of National Natural Science Foundation of China Scientific Instrument Project, 4 projects of Junkou 863 project and sub-projects. He has published 23 articles as the first or corresponding author, and obtained 11 invention patents; He has won the third Prize of Shanghai Science and Technology Progress, the title of National Military "863-×××" special "Eleventh Five-Year Advanced Individual", the second prize of Shanghai Technology Invention, and the Chinese Society of Instrumentation Technology First Prize for Invention.

  • Personal Experience
  • Research Areas
  • Research Areas
  • Research Project
  • Academic Achievements
  • Honors and Awards

Educational experience:

1996.9-2000.7 Changchun Institute of Optics and Fine Mechanics (now Changchun University of Science and Technology), Department of Optoelectronic Engineering, Bachelor, life monitor, deputy secretary of the Youth League Committee;

2000.9-2003.7 Chunguang Institute of Mechanical Engineering, Dean of Science of China, Master of Optics, monitor, Director of the Life Department of the Graduate Student Union, member of the organization of the Party branch of the graduate student;

2003.10-2006.06 Department of Physics, Tongji University, Condensed Matter Physics, PhD.

Work experience:

2006.07-2007.10, Department of Physics, Tongji University, Lecturer;

2007.10-2008.06 Department of Physics, Tongji University, Lecturer; Department of Science and Technology, Tongji University, temporary post;

2008.07-2009.11, Department of Physics, Tongji University, Lecturer; Department of Science and Technology, Ministry of Education, seconded;

2009.12-2010.01 Lecturer, Department of Physics, Tongji University;

2010.01 -- 2013.11 Associate Professor, School of Physical Science and Engineering, Tongji University; Executive Deputy Director, Key Laboratory of Advanced Microstructure Materials, Ministry of Education.

2013.12-2014.11 Base Office, Institute of Science and Technology, Tongji University, Deputy Director (Deputy director level); Associate Professor, School of Physical Science and Engineering, Tongji University; Executive Deputy Director, Key Laboratory of Advanced Microstructure Materials, Ministry of Education.

2014.12-2016.11 Base Office, Institute of Science and Technology, Tongji University, Deputy Director; Professor, School of Physical Science and Engineering, Tongji University; Executive Deputy Director, Key Laboratory of Advanced Microstructure Materials, Ministry of Education.

2016.12-2017.03 School of Physical Science and Engineering, Tongji University, Deputy Secretary of Party Committee and Professor; Executive Deputy Director, Key Laboratory of Advanced Microstructure Materials, Ministry of Education.

2017.03-present, Secretary of Party Committee and Professor, College of Physical Science and Engineering, Tongji University; Executive Deputy Director, Key Laboratory of Advanced Microstructure Materials, Ministry of Education.


Focusing on China's major national needs such as confined nuclear fusion, synchrotron radiation, astronomical exploration, spallation neutron sources and other major scientific projects, the research direction of "X-ray and neutron multilayer optics and systems" has been continued. Focus on multilayer interface engineering technology and devices, multilayer stress generation mechanism and control technology, X-ray and neutron optical systems and applications.

Undergraduate course: University Physics B



Start time

End time

Project name

Project source

Major contributions

2021.01

2025.12

A compact focused small Angle neutron scattering spectrometer with wide Q range and high current gain is developed based on a small neutron source

National Natural Science Foundation of major research instrument development project

Backbone participation

2021.01

2023.12

Research on neutron focusing systems for small size (less than 1mm) samples

National Natural Science Foundation of China Large Scientific Equipment Joint Fund (Cultivation Project)

Project leader

2020.10

2023.09

Research on Montel type hard X-ray focusing component with high efficiency and high spatial resolution for Shanghai light source

Shanghai "Science and Technology Innovation Action Plan" scientific instrument field project

Project leader

Articles:

1.徐德超,王海霞,张众,朱杰,连玉红,王占山,软X射线Mo/B4C多层膜应力和热稳定性研究,强激光与粒子束,2015,27(5):062001-1-5.

2. Zhong Zhang a, JunjieWang a, Yuhong Lian a, Radhwan Alnaimi b, Zhanshan Wang a,⁎, Hong Chena,Influence of various Si layers on the interlayer thicknesses of the direct current magnetron sputtered Fe/Si multilayers,Thin Solid Films,2015,592:312-317.

3. Jia Li1, Jie Zhu1,Zhong Zhang1,*,Runze Qi1, Qi Zhong1, Zhanshan Wang1,Effect of Si barrier layers on the thermal stability of Al(1wt.%Si)/Zr multilayers designed as EUV mirrors,Infrared and Laser Engineering,2015,44(4):1335-1342.

4. Haixia Wang, Dechao Xu, Jie Zhu, Zhong Zhang,∗, Radhwan Alnaimi, Baozhong Mu,Zhanshan Wang,∗∗, Hong Chen, Investigation in the interface roughness of DC-sputtered Mo/B4Cmultilayer mirrors with variable layer pairs for 7-nm soft X-ray polarizers, Optik, 2014,125: 3415–3418.

5. Zhong Zhang, Yu Liang, Wenbin Li, Zhanshan Wang, Hong Chen, Stress evolution in B4C and Cr mono-layer and B4C/Cr multilayer films with variable layer thickness for neutron detectors, Thin Solid Films, 2013,531: 302–305.

6. Qi Zhong, Zhong Zhang, Jingtao Zhu, Zhanshan Wang, Philippe Jonnard, Karine Le Guen, Jean-Michel André, The chemical characterization and reflectivity of the Al(1.0%wtSi)/Zr periodic multilayer,Appl. Surf. Sci., 2012, 10.1016/j.apsusc.2012.07.054.

7.Qi Zhong,Zhong Zhang,Jingtao Zhu,Zhanshan Wang,Philippe Jonnard,Karine Le Guen,Yanyan Yuan,Jean-Michel Andre,Hongjun ZhouandTonglin Huo,The thermal stability of Al(1%wtSi)/Zr EUV mirrors,Appl. Phys. A, 2012,10.1007/s00339-012-7085-1(DOI)

8.张众,王占山,吴永荣,陈玲燕,中子超反射镜的优化设计,原子能科学技术,2010,44(1):88~92。

9. Dai Min , Zhang Zhong, Zhu Jingtao, Wang Xiaoqiang, Xu Jing,FuXiuhua, Bai Liang, Huang Qiushi, Wang Zhanshan, Chen Lingyan,Influence of interface roughness on reflectivity of W/B4C multilayers with variable bi-layer number by X-ray reflection and diffuse scattering,Chin. Opt. Lett., 2009,7(8): 738~740.

10.张慧晶,张众,朱京涛,白亮,陈锐,黄秋实,刘丽琴,谭默言,王风丽,王占山,陈玲燕,高反射率Mo/B4C多层膜设计及制备,强激光与粒子束,2008,20(1):1~4。

11. Zhang Zhong,Wang Zhanshan, Zhu Jingtao, Wang Fengli, Wu Yongrong, Qin Shuji, Chen Lingyan,Design, Fabrication and Measurement of Ni/Ti Multilayer Used for Neutron Monochromator,Chin. Phys. Lett., 2007,24(12), 2007 :3365~3367.

12. Zhang Zhong, Wang Zhanshan, Zhu Jingtao, Wang Fengli, Wu Yongrong, Qin Shuji and Chen Lingyan,Design and Fabrication of Ni/Ti Multilayer for Neutron Supermirror,Chin. Phys. Lett.,23(10), 2006: 2678~2680.

13.张众,王占山,王洪昌,王风丽,吴文娟,张淑敏,秦树基,陈玲燕,13.9nm马赫贞德干涉仪用软X射线分束镜研究,强激光与粒子束,18(5), 2006:773~778。

14. Zhang Zhong, Wang Zhanshan, Wang Fengli, Wu Wenjuan, Wang Hongchang, Qin Shuji and Chen Lingyan, Design and fabrication of broad angular range depth-graded C/W multilayer mirror for hard X-ray optics,Chin. Opt. Lett.,3(7), 2005: 422~424.

15. Zhang Zhong, Wang Zhanshan, Wang Fengli, Wu Wenjuan, Wang Hongchang, Qin Shuji and Chen Lingyan,Design and fabrication of broad angular response supermirror for hard X-ray optics,Chin. Phy. Lett.,22(10), 2005: 2511~2514.

16.Zhang Zhong, Wang Zhanshan, Wang Fengli, Qin Shuji, and Chen Lingyan, Design of grazing-incidence broad-band multilayers for hard X-ray reflectors, Chin. Phy. Lett., 21 (12), 2004: 2372~2375.

17.张众,王占山,吴文娟,王洪昌,王风丽,顾春时,秦树基,陈玲燕,华巍,黄宇营,用于同步辐射单色器多层膜的研究,核技术,28 (12), 2005: 900~903.

18.Zhang Zhong, Wang Zhanshan, Wang Fingli, Wu Wenjuan, Wang Hongchang, Qin Shuji and Chen Lingyan, Design and fabrication of C/W hard X-ray supermirrors, SPIE, 6034, 2005: 6034Y1~6034Y6.

19.张众,王占山,吴永荣,秦树基,陈玲燕,基于多层膜技术的中子单色器设计,核科学与技术,1 (2), 2005: 146~151.

20.王占山,张众,王风丽,吴文娟,王洪昌,秦树基,陈玲燕,13.9nm软X射线激光用大面积多层膜分束镜研制,强激光与粒子束,16 (9),2004:1089~1091。Tao He, Tong Liu, Shiyi Xiao, Zeyong Wei, Zhanshan Wang*, Lei Zhou*, Xinbin Cheng*, Perfect anomalous reflectors at optical frequencies, Science Advances (2022) 8(9) : eabk3381.

21. Huarui Wu, Yang Yang, Daniel S. Hussey, Zhiyuan Wang, Kun Song,Zhong Zhang,Zhanshan Wang, ZheWang,Xuewu Wang, Study of a nested neutron-focusing supermirror system for small-angle neutron scattering, Nuclear Instruments and Methods in Physics Research Section A, 2019,940:380–386.

22. Hongfei Jiao, Changyang Yu,Zhong Zhang∗∗, Wenbin Li, Qiushi Huang, Hong Chen,Zhanshan Wang, Effect of carbon on microstructure neutron applications, Vacuum, 2018, 155: 49-54

23. 张众,靳鑫,李文斌,黄秋实,王占山,NiC/Ti中子多层膜的微结构和界面研究,光学精密工程,2017,25(11):2859-2864.


Patents:

Grant Date

Patent name and Patent Number

Rank

2014.06

The invention relates to a duralumin/silicon carbide extreme ultraviolet multilayer mirror and a preparation method thereof

CN201210044966.6

1

2014.09

The invention relates to a silicon aluminum alloy/zirconium extreme ultraviolet multilayer mirror and a preparation method thereof

CN201210172142.7

1

2014.11

The invention relates to an extreme ultraviolet multilayer mirror and a preparation method thereof

CN201310009896.5

1

2015.04

The invention relates to a silicon aluminum alloy/silicon/zirconium/silicon extreme ultraviolet multilayer mirror and a preparation method thereof

CN201310006877.7

1

2015.04

The invention relates to a low stress neutron conversion thin film element and a preparation method thereof

CN201210044966.6

1

2015.08

Impedance nickel film calorimeter based on laser etching method and manufacturing method thereof

CN201310009375.X

1

2008.07

Device for improving film uniformity and production efficiency of X-ray reflectors

CN207632878U

1

Research Awards:


1. High-tech 863-804 special "Eleventh Five-Year Plan" Advanced individual for Scientific and Technological Research, 2011


2. 2012 "New Century Talent Support Program"


3. The third prize of Shanghai Science and Technology Award in 2006, ranking the third


4. The second prize of Shanghai Technology Invention Award in 2011, ranking sixth


5. The second prize of the 2012 Military Science and Technology Progress Award, ranking seventh


6. First Prize of Science and Technology Progress Award of Science and Technology Innovation Award of China Optical Engineering Society in 2021, ranking 7th


7. The first prize of Science and Technology Invention Award of China Instrumentation Society in 2021, ranking third