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张正龙
职称/职务: 教授
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电子信箱: zlzhang@snnu.edu.cn
出生年月:
办公地点: 致知楼 3538


纳米光学团队欢迎您!

团队急需引进具有增强光谱学(SERS/TERS表面物理(AFM/STM背景的各层次人才。

欢迎报考课题组的硕士、博士研究生!



工作教育经历(WORK AND EDUCATION):

2016.09 - 至今          研究员 (Professor)         陕西师范大学 物理学与信息技术学院

2014.07 - 2016.09    洪堡学者 (Av-H Fellow)   Leibniz Institute of Photonic Technology, Jena, Germany

2013.09 - 2014.06    博士后 (Postdoc)           Leibniz Institute of Photonic Technology, Jena, Germany

2010.12 - 2013.09    联培博士 (Ph.D.)            中国科学院 物理研究所

2007.09 - 2013.06    硕博连读 (Ph.D.)            陕西师范大学 物理学与信息技术学院

2003.09 - 2007.07    本科 (B.S.)                   山西师范大学 物理与信息工程学院

 

研究领域(RESEARCH INTEREST):

针尖增强拉曼光谱学 (Tip-enhanced Raman scattering, TERS)

等离激元光子学 (Plasmonics)

 

主持项目(FUNDS):

国家自然科学基金青年项目

陕西师范大学科研启动经费

中央高校基本科研业务费专项资金团队项目

 

学术兼职(ACADEMIC POSITION):

担任Light: Sci. & Appl.Sci. Rep.; Nanolett.ACS NanoNanoscaleChem. Comm.SCI期刊审稿人

曾任留德华人化学化工学会(CGCA),常务副理事长

 

主要获奖(AWARDS):

2016Leibniz-IPHT最佳贡献奖,莱布尼茨光子技术研究所(德国)

2015,陕西省优秀博士论文,陕西省人民政府

2014,陕西高等学校科学技术一等奖,陕西省教育厅

2012,中国科学院物理研究所所长奖,中科院物理所

2012,博士研究生国家奖学金,教育部

 

科研论文(PUBLICATIONS):

已发表学术论文50余篇,其中第一或通讯作者论文27

论文已被Nature NanotechnologyNature CommunicationNano LettersJACS等杂志引用900余次

H因子17,三篇论文入选ESI高引论文

 

 代表性论文(Selected Publications):

 

1.  Z. Zhang, S. X. Sheng, R. M. Wang, M. Sun, Tip-Enhanced Raman Spectroscopy, Anal. Chem., 2016, 88, 9328-9346. (封面)

2.  Z. Zhang, D. Kinzel, V. Deckert, Photo-Induced or Plasmon-Induced Reaction: Investigation of the Light-Induced Azo-Coupling of Amino Groups, J. Phys. Chem. C, 2016, 120, 20978-20983

3.  Z. Zhang, Y. Wu, J. Dong, W. Gao, Q. Han, H. Zheng, Controlled plasmon enhanced fluorescence by silver nanoparticles deposited onto nanotube arrays, J. Phys. Condens. Matter, 2016, 28, 364004.

4.  Z. Zhang, P. Xu, X. Yang, W. Liang, M. Sun, Surface  plasmon-driven  photocatalysis  in  ambient,  aqueous  and high-vacuum  monitored  by  SERS  and  TERS, J. Photochem. Photobiol. C, 2016, 236.

5.  Z. Zhang, et.al, Propagating surface plasmon polaritons towards applications for remote excitation surface catalytic reactions, Adv. Sci. 2016, 3, 1500215. (ESI高引)

6.  Z. Zhang, T. Deckert-Gaudig, V. Deckert, Label-free monitoring of plasmonic catalysis on the nanoscale, Analyst, 2015, 140, 4325-4335.

7.  V. Deckert,  T. Deckert-Gaudig, M. Diegel, I., G?tz, L. Langelüddecke, H. Schneidewind, G., Sharma, P. Singh, P. Singh, S. Trautmann, M. Zeisberger, and Z. Zhang, Spatial Resolution in Raman Spectroscopy, Faraday Discuss., 2015, 177, 9-20.

8.   郑海荣,董军,何恩节,张正龙,纳米结构对稀土离子及分子类发光中心荧光性质的调控,科学通报, 2015, 60: 899-911.

9.   Z. Zhang, T. Deckert-Gaudig, P. Singh, V. Deckert, Single molecule level plasmonic catalysis - a dilution study of p-nitrothiophenol on gold dimers, Chem. Comm., 2015, 51, 3069-3072.

10.  Y. Fang,^ Z. Zhang,^ L. Chen, M. Sun, Near field plasmonic gradient effects on high vacuum tip-enhanced Raman spectroscopy, Phys. Chem. Chem. Phys., 2014, 17, 2, 783-794.

11.  Y. Huang, Y. Fang, Z. Zhang, L. Zhu, M. Sun, Nanowire-supported plasmonic waveguide for remote excitation of surface-enhanced Raman scattering, Light: Sci. & Appl., 2014, 3, e199. (ESI高引)

12.  M. Sun, Z. Zhang, L. Chen, Q. Li, S. Sheng, H. Xu, Plasmon-driven selective reductions revealed by tip-enhanced Raman spectroscopy, Adv. Mater. Interfaces, 2014, 1, 5.

13.  Z. Zhang, M. Sun, S. Sheng, H. Zheng, H. Xu, Molecular Resonant Dissociation of Surface-Adsorbed Molecules by Plasmonic Nanoscissors, Nanoscale, 2014, 6 (9), 4903 – 4908.

14.  M. Sun, Z. Zhang, L. Chen, S. Sheng, H. Xu, Plasmonic Gradient Effects on High Vacuum Tip-enhanced Raman Spectroscopy, Adv. Opt. Mater., 2014, 2, 74-80.

15.  Z. Zhang, L. Chen, S. Sheng, M. Sun, H. Zheng, K. Chen, H. Xu, High-Vacuum tip enhanced Raman spectroscopy, Front. Phys., 2014, 8(1): 17-24. (封面)

16.  M. Sun, Z. Zhang, Z. Kim, H. Zheng and H. Xu, Plasmonic Scissors for Molecular Design, Chem. Eur. J., 2013, 19, 14958-14962.

17.  M. Sun^, Z. Zhang,^ P. Wang, Q. Li, F. Ma, H. Xu, Remotely excited Raman optical activity using chiral plasmon propagation in Ag nanowires, Light: Sci. & Appl., 2013, 2, e112.

18.  Z. Zhang, M. Sun,  P. Ruan, H. Zheng, H. Xu, Electric field gradient quadrupole Raman modes observed in plasmon-driven catalytic reactions revealed by HV-TERS, Nanoscale, 2013, 5(10):4151-4155.

19.  Z. Zhang, L. Chen, P. Ruan, M. Sun, H. Zheng, H. Xu, The insights into the nature of plasmon-driven catalytic reactions revealed by HV-TERS, Nanoscale, 2013, 5 (8): 3249 – 3252.

20.  Z. Zhang, P. Yang, H. Xu and H. Zheng, Surface enhanced fluorescence and Raman scattering by gold nanoparticle dimers and trimers, J. Appl. Phys., 2013, 113(4) 083304.

21.  Z. Zhang, X., H. Zheng, and H. Xu, M. Sun, Tip-enhanced Ultrasensitive Stokes and Anti-Stokes Raman Spectroscopy in High Vacuum, Plasmonics, 2013, 8(2):523-527.

22.  M. Sun, Z. Zhang, H. Zheng, and H. Xu, In-situ plasmon-driven chemical reactions revealed by high vacuum tip-enhanced Raman spectroscopy, Sci. Rep., 2012, 2 (647). (ESI高引)

23.  J. Dong, H. Zheng, X. Yan, Y. Sun, and Z. Zhang, Fabrication of flower-like silver nanostructure on the Al substrate for surface enhanced fluorescence, Appl. Phy. Lett., 2012, 100(5) 051112.

24.  Z. Zhang, H. Zheng, J. Dong, X. Yan, Y. Sun and H. Xu, Surface enhanced fluorescence by porous alumina with nanohole arrays, Sci China-Phys Mech Astron, 2012, 55(5): 767-771.

25.  Z. Zhang, H. Zheng, M. Liu, H. Zhang, B. Yin, and H. Zhang, Surface Enhanced Fluorescence of Rh6G with Gold Nanohole Arrays, J. Nanosci. Nanotechnol. 2011, 11(11): 9803-9807.


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