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张红 教授

   

    张红,女,博士,二级教授(物理学),博士生导师, 现任四川大学物理科学与技术学院院长; 国务院学科评议组成员(物理学组); 高能量密度物理及技术教育部重点实验室主任; 中国物理学会理事会理事;中国物理学会凝聚态理论与统计物理专业委员会委员; 中国物理学会表面与界面物理专业委员会委员;国际表面等离激元组委会委员;国际量子能源组委会委员;四川省学术和技术带头人; 四川省专家评议委员会成员; 四川大学理科学位委员会委员;《四川大学学报-自然科学版》编委会委员; 香港大学及英国伦敦大学访问教授。


     张红教授在四川大学从事科研与教学工作20年,承担硕博士研究生和本科生《凝聚态理论》、《原子物理学》、《表面物理前沿》等课程,主要从事凝聚态物理基础理论和计算研究, 在飞秒激光与纳米材料相互作用的超快动力学、量子调控及电子激发动力学等方向做了较为深入的研究。在PNAS; Physical Review Letters; Physical Review B; Applied Physics Letters等国际刊物发表SCI收录论文200篇(其中第一作者及通讯作者130余篇).  论文包括4PRL1PNAS 18PRBAPL1Nanoscale等及其他影响因子大于3的论文50余篇。研究成果在美国、日本、及欧洲多个国家得到宣传报道。


     张红教授作为项目负责人主持国家重大专项课题1项、国家重点研发计划1项(参与单位)、主持国家自然科学基金项目4项、主持教育部博士点博士生导师专项科研基金1项、及多项总装预研和国家重点实验室基金; 应邀在美国、日本、及欧洲多个国家重要物理会议上做学术报告50次;作为会议主席(或Co-Chair)先后主持国内外物理学术会议10余次。 2006-2017年先后在美国麻省理工学院、美国普渡大学、日本AIST纳米技术研究所、日本北海道大学、英国伦敦大学、香港大学以及澳大利亚悉尼大学等做学术交流及科研合作。


     张红教授作为项目负责人完成四川大学新世纪教学教改项目3项,以第一及通讯作者发表教改论文11篇(含两篇英文);作为第一作者编写研究生全英文教材1本(出版中)。


     分别荣获:四川省学术和技术带头人、宝钢优秀教师奖四川大学“214”重点人才、四川大学教学名师四川大学青年骨干教师等.


联系方式:

邮箱:hongzhang@scu.edu.cn

电话:028 85410238; 028 85400158


Dr. Hong Zhang is the dean of College of Physical Science and Technology, Sichuan University, now she is a full professor in physics department of Sichuan University. She received her PhD from Sichuan   University,China. Her research area is Condensed Matter Theory and now the research activity is focused on the interaction between short-pulse laser and surfaces (including nanotubes and graphene); hydrogen storage. Her research highlight is targeting high-melting low-dimensional material such as graphene and carbon nanotubes, these materials are experimentally studied and because of their high melting temperatures, heat treatment that control defects, impurities, even entire shape of these material are difficult that make these materials hard to be used for many applications. She is searching non-thermal way to control these materials with use of femtosecond laser.


     Prof. Hong Zhang has published over 200 publications in PNAS; Physical Review Letters;   Physical Review B; Applied Physics Letters;  Nanoscale and other scientific journals.


Contact information:

E-mail:   hongzhang@scu.edu.cn;

Tel:  028 85410238;    028 85400158


Main Research Interests:

1.  Interaction between short-pulse laser and surfaces (including nanotubes and graphene)

2.  Theoretical study of nano-structure and multiscale modeling

3.  Structure and dynamic properties of surfaces and interfaces


Selected Publications (*presents corresponding author)

1. Hong Zhang,  et al,  Physical Review Letters, 109265505, 2012

Ab-initio simulation of helium ion microscopy images: The case of suspended grapheme

2. Y. Miyamoto,  Hong Zhang*,  et al,  Physical Review Letters, 114, 116102, 2015 Modifying the interlayer interaction in layered materials with an intense infrared laser

3. Y. Miyamoto*, Hong Zhang*, A. Rubio*, Physical Review Letters, 105, 248301, 2010

Chemical reactions in HCl molecule embedded nanotube induced by ultrafast laser pulses

4. Y. Miyamoto, Hong Zhang*, D. Tomanek,  Physical Review Letters, 104, 208302, 2010

Photoexfoliation of graphene from graphite

5. Y. Miyamoto, Hong Zhang, A. Rubio, PNAS, 109, 8861, 2012

Pulse-induces non-equlibrium dynamics of acetylene inside carbon nanotube

6. Hong Zhang*, et al, Nanoscale, 719012, 2015

Optical Field Terahertz Amplitude Modulation by Graphene Nanoribbons

7. Hong Zhang, et al, Physical Review B (Rapid Communication), 85, 201409, 2012

Preferential Dehydrogenation from One-side of Graphane by laser Pulse

8. Hong Zhang, et al, Physical Review B 85, 033402, 2012

Graphene production by laser shot on graphene oxide: An ab initio prediction

9. Hong Zhang, et al, Physical Review B 78, 045436, 2008

Stability, structure, electronic properties of chemisorbed oxygen and thin surface oxides on Ir

10. Hong Zhang*, et al, Applied Physics Letters, in press, 2018

Detection of coherent electron dynamics in benzene and polycyclic benzene by two

anti-phase pulses:An ab initio study

11. Hong Zhang, et al, Applied Physics Letters, 95, 053109, 2009

Modulation of alternating electric field inside photoexcited carbon nanotubes

12. Y.Miyamoto, T. M, A. Rubio, Hong Zhang*, Applied Physics Letters, 104, 201107, 2014,

Photo-induced hardening of the weak bonds of nobel gas dimmer.

13. HF Yin, Hong Zhang*, Applied Physics Letters, 101, 061906, 2012

Quantum mechanical study of plasmonic coupling in sodium nanoring dimmers

14. W Wang*, Hong Zhang, et al, Applied Physics Letters, 110, 151101, 2017, Field-level characterization of the optical response in J-aggregate/metal hybrid nanostructures by chirp-compensated spectral interferometry

15. Y Miyamoto*, Hong Zhang*, et al, Physical Review B, 96, 115451, 2017

Modeling of laser-pulse induced water decomposition on two-dimensional materials by simulations based on the time-dependent density functional theory

16. Jiahe Lin, Hong Zhang*, et al, Physical Review B, 94,195404, 2016,

Novel two-dimensional wide-band-gap nitride semiconductors: single-layer 1T-XN2

17. XQ Shu, Hong Zhang*, et al, Physical Review B, 93, 195424, 2016

Tunable plasmons in few-layer nitrogen-doped graphene nanostructures: A time-dependent density functional theory study

18. JH Lin, Hong Zhang*, et al, Physical Review B in press, 2017

Single-layer group IV-V and group V-IV-III-VI semiconductors: structural stability, electronic structures, optical properties and photocatalysis

19. GQ Yan, Hong Zhang, et al, Physical Review B 93, 214302, 2016

Different effects of electronic excitation on metals and semiconductors

20. Y. Miyamoto, Hong ZhangPhysical Review B 77, 165123, 2008

Testing the numerical stability of time-dependent density functional simulations using the Suzuki-Trotter formula

21. Y. Miyamoto, Hong Zhang, Physical Review B(Rapid Comm.), 77, 161402, 2008

Electronic Excitation In an Ar Ion Transversing A Graphene Sheet

22. Y. Miyamoto, Hong Zhang,  Physical Review B 77, 045433, 2008, Calculating interaction between a highly charged high-speed ion and a solid surface

23. Hong Zhanget al, Acta Physica Sini. (invited paper), 64, 057300, 2015, Surface plasmon research progress based on time-dependent density functional theory

24. Hong Zhang, W.X. Li, J. Phys. Chem. C 113, 21361, 2009

First-principles investigations on hydrogen adsorption and potential energy on Ir(111) surface

25. Hong Zhang, et alApplied Surface Science, 254, 7655, 2008

Al Adsorption on Ir(111) at a Quarter Monolayer Coverage: A First Principles Study

26. Hong Zhang*, HF Yin, Inter. J. Quan. Chem., 113 2200, 2013

Plasmon resonances and plasmon-induced charge transport in linear atomic chains

27. Hong Zhang, XL. Cheng, S. Chiesa, Inter. J. Quan. Chem., 111, 4452, 2011

QMC calculations of bond dissociation energies for some nitro and amino molecules

28. Hong Zhang, et al, Front. Phys (review paper). 6, 231, 2011

DFT study of dihydrogen interactions with lithium containing organic complexes

29. Hong Zhang, et al, Inter. J. Quan. Chem., 109, 720, 2009

First-principles study on structure and electronic properties of Nitrimino nitroimidazolidine

30. Hong Zhang, F. Cheung, Inter. J. Quan. Chem., 109, 1547, 2009

Band Gaps and the Possible Effect on Some Nitro Aromatic Explosive Materials

31. Hong Zhang, F. Chen, et al, J. Mole. Struc.: THEOCHEM 857, 33, 2008

Structural and Electronic properties of 2,4,6-trinitrophenol

32. Hong Zhang*, et al, Chinese Physics Letters , 25, 552, 2008

Structural, electronic properties and Chemical Bonding of Li4CaB2O6 under high pressure

33. Hong Zhang*, et al, Physica Status Solidi (b), 24,37, 2008

DFT studies on thermodynamic properties of Na2Ti3O7 under high temperature and pressure

34. Hong Zhang*, et al, Chinese Physics, 15, 0428, 2006

Molecular dynamics study of the ternary compound Li3AlB2O6

35. Hong Zhang*, et al, Chinese Physics Letters, 2003

Analysis of Charge state Distribution

36. Kaibiao Zhang, Hong Zhang*, J. Phys. Chem. C , 118, 635, 2014, Plasmon Coupling in Gold Nanotube Assemblies: Insight from Time-Dependent  DFT  Calculation

37. JH Guo, Hong Zhang*,  J. Phys. Chem. C, 116, 15908, 2012, Multiscale Study of Hydrogen Adsorption, Diffusion and Desorption on Li-Doped Phthalocyanine Covalent Organic Frameworks

38. KB Zhang, Hong Zhang*, Phys. Chem. Chem. Phys, 17, 12051, 2015

Coherent Resonance of Quantum Plasmons in Graphene-Gold Cluster Hybrid System

39. SY, Zhang, Hong Zhang*, Applied Surface Science, 289, 81, 2014

The inter-adsorbate interaction mediated by Shockley-type surface electrons and dipole moment: Cs and Ba atoms absorbed on Ag(111) films.

40. P.P Liu, Hong Zhang*, Xinlu Cheng, Applied Surface Science, 371, 44-49, 2016, External electric field: an effective way to prevent aggregation of Mg atoms on γ-graphyne for high hydrogen storage capacity

 


 

 

 

 

 

 

 

 

 

 

 

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