Curriculum Vitae – Prof. Shuyun Wang
Date of Birth: 22 February, 1965
Nationality: Chinese
Present address
School of Physics and Electronics, Shandong Normal University, Jinan 250358, P. R. China
Email: wangshuyun65@163.com, wangsy@sdnu.edu.cn
Personal website
https://orcid.org/0000-0002-9026-9489
http://www.physics.sdnu.edu.cn/info/1156/5921.htm
Education
l University of Science and Technology Beijing, A visiting scholar in School of Materials Science and Engineering, Sep. 2008-Jun. 2009
l Shandong Normal University, Part-time M.S. student in Physics, Sep. 2001- Aug.2003
l Shandong Normal University, B.Sc. student in Physics, Sep. 1983-Jun. 1987
Working Experience
l School of Physics and Electronics, Shandong Normal University, Jinan 250358, P. R. China, Jan. 2003-Present
l Analysis and Testing Center of Physical and Chemical, Shandong Normal University, Jinan 250014, P. R. China, Jul. 1988- Dec. 2002
l Teacher Refresher School, Linzi District, Shandong Zibo City, P. R. China, Jul. 1987- Jul. 1988
Award and Honours
l Second Prize of provincial teaching achievement in Shandong Province, 2018
l The sixth national education master's outstanding teaching management workers awarded by the national education professional degree graduate education steering committee, 2017
l Excellent Teaching Award of Shandong Normal University, 2015-2016
l Excellent Teaching Award of Shandong Normal University,2012-2013
l Third prize of Science and technology Progress in Shandong Province, 2007
l First prize of Experimental teaching achievement in Shandong Province, 2005
Research fields
Magnetoresistance film materials; Magnetic recording film materials; Optical film materials
Selected papers published in refereed international journals
1. Bin Guo, Zhongshuai Zhang, Yanyan Huo, Shuyun Wang*, and Tingyin Ning**,Modulation of epsilon-near-zero wavelength and enhancement of third-order optical nonlinearity in ITO/Au multilayer films,Chinese Optics Letters 21(1), 013602 (2023)
2. Qingwang Bai, Jie Jiang, Bin Guo, Wentian Cao, Xianwu Xiu, Shuyun Wang*, Effect of increasing interaction interface on perpendicular magnetic anisotropy of Pd/Co2MnSi/Pd multilayers, Journal of Alloys and Compounds, 897 (2022) 163114
3. Qingwang Bai, Bin Guo, Qin Yin, and Shuyun Wang*, Perpendicular magnetic anisotropy of Pd/CMS/NFO/Pd multilayers on F-mica substrates. Chin. Phys. B 31, 017501 (2022)
4. Qingwang Bai, Jie Jiang, Bin Guo, Wentian Cao, Xianwu Xiu, Shuyun Wang*,Enhancement of perpendicular magnetic anisotropy of Pd/Co2MnSi/Co3O4/Pd multilayer structure,Journal of Magnetism and Magnetic Materials,539 (2021) 168335
5. Wentian Cao, Shuyun Wang, Qingwang Bai, and Bin Guo,Regulation of absorption coefficients between multi-photon and free-carrier in PbTe films by deposition temperature,Appl. Phys. Lett. 119, 022102 (2021)
6. ZhenMou1, Changda Zhou1, Peiyao Lu1, Qingyang Yue1, Shuyun Wang2, Shuyun Teng1*, Structured vortices generated by metasurface holography. Photonics Research, 2021, 9(10), 2125-2131
7. Jie Jiang, Xianwu Xiu, Kailin Wen, Wentian Cao, Yuan He, Shuyun Wang*, Perpendicular magnetic anisotropy of Pd/Co55Mn25Si20/NiO/Pd sputtering films,Journal of Magnetism and Magnetic Materials,505(2020)166709
8. Xiaoqing Lu , Xiangyu Zeng, Haoran Lv, Yuansheng Han, Zhen Mou, Chunxiang Liu, Shuyun Wang and Shuyun Teng, Polarization controllable plasmonic focusing based on nanometer holes, Nanotechnology, 31 (2020) 135201
9. Kailin Wen, Xianwu Xiu, Jie Jiang, Yuan He, Fazhong Huang and Shuyun Wang*. Perpendicular magnetic anisotropy of Pd/Co2MnSi/MgAl2O4/Pd structure films, Journal of Physics D - Applied Physics 52 (2019) 485005
10. Shuyun Wang* , Kailin Wen, Yang Sun, Xianwu Xiu, Shuyun Teng, Sen Wang and Yuan He,Optical and electrical properties and simulation curves of NiO/Al/NiO transparent conductive film,Modern Physics Letters B. 2019, 33(1):1850417
11. Sen Wang, Shuyun Wang, and Yan Zhang,Polarization-based dynamic manipulation of Bessel-like surface Plasmon polaritons beam,Optics Express, 26 (2018) 5461-5468
12. Litao Hu, Yan Jun Liu, Shicai Xu, Zhe Li, Jia Guo, Saisai Gao, Zhengyi Lu, Haipeng Si, Shouzhen Jiang, Shuyun Wang,Facile and low-cost fabrication of Ag-Cu substrates via replacement reaction for highly sensitive SERS applications,Chemical Physics Letters, 667 (2017) 351–356
13. Shuyun Wang*, Huaxue Huang, Yang Sun, Tiejun Gao, Yuan He,Effects of Y2O3 insertion layer on anisotropic magnetoresistance of Ni81Fe19 films. Modern Physics Letters B. 1650072. 2016. (Vol. 30, No. 7 (2016) 1650072 )
14. Shuyun Wang*, Yuanmei Gao, Tiejun Gao, Hui zhang, Yuan he, Yuan yao. Effects of ZnO Layer on Anisotropy magnetoresistance of Ni81Fe19 Films. Modern Physics Letters B. Vol. 28, No. 6 (2014)28:1450043
15. Shuyun Wang*, Hui zhang, Yuan yao. Effects of NiO Layer on Anisotropic Magnetoresistance and Sensitivity of Ni81Fe19 Films, Journal of Electronic Materials,(2014)43:3493-3498(Vol. 43, No. 9)
16. Wang Shuyun*, Zhang Hui, Gao Yuanmei, Gao Tiejun, Yao Yuan. Effect of NiFeNb buffer and NiO insertion layers on anisotropic agnetoresistance of Ni81Fe19 thin films,Jourmal of Vacuum Science and Technology, 2014,34(8) : 847-851
17. Shuyun Wang*, Tiejun Gao, Cuntao Wang, Jianfang He,Studies of Anisotropic Magnetoresistance and magnetic property of Ni81Fe19 ultra-thin films with the lower base vacuum,Journal of Alloys and Compounds, 554 (2013) 405–407
18. Shuyun Wang*, Cuntao Wang, Yuanmei Gao, Tiejun Gao, Guixiang Hu, Hui Zhang. Anisotropic magnetoresistance of Ni81Fe19 films on NiFeNb buffer layer, Journal of Alloys and Compounds, 575(2013)419–422
19. Jianfang He, Shuyun Wang*. Effects of substrate temperature and buffer layer on the anisotropic magnetoresistance of Ni81Fe19 ultra-thin films, Optoelectronics and advanced materials-rapid communications,(2012)6:173-176
20. Huifang Lu, Wentian Cao, Shuyun Wang, The effect of annealing temperature on the characterization of Al/PbTe films. Optoelectronics and Advanced Materials-Rapid Communications,2011,5(10):1069-1071
21. Wei Ren, Wentian Cao, Shuyun Wang, Mingxiao Sui, Huifen Lu, The effect of substrate bias voltage on PbTe films deposited by magnetron sputtering,Journal of Alloys and Compounds,509 (2011) 5947–5951