学院简介

    深圳大学高等研究院是深圳大学新成立的一个包含本科与研究生培养、侧重跨学科教学与研究的校内综合办学单位。作为深圳大学内部探索全面改革创新的学术特区,高等研究院与香港和海外著名高校合作,借鉴国外研究型大学通行的管理模式,引进具有一流视野的资深教授和发展潜力的青年教师,营造与国际接轨的学术氛围和培养环境,开展卓越的教学、研究和管理工作。 ······

本科生课程

李 武

博士,研究员

邮箱:wu.li@szu.edu.cn

地址:深圳市南山区南海大道3688号深圳大学办公楼341室

 

教育背景:

2011 理学博士(物理学专业),中国科学院物理研究所

12/2008-11/2010 联合培养,Institute of Materials Science, TU Dresden / International Max Planck Research School for “Dynamical Processes in Atoms, Molecules and Solids”, Dresden, 德国

2006 理学学士(物理学专业),郑州大学

 

工作经历:

02/2015-12/2015 研发工程师, Laboratory for Innovation in New Energy Technologies and Nanometerials (LITEN), 法国原子能和替代能源委员会,Grenoble,法国

09/2013-01/2015 玛丽•居里学者,Scientific Computing & Modelling NV, Amsterdam, 荷兰

09/2011-08/2013 博士后工程师, Laboratory for Innovation in New Energy Technologies and Nanometerials (LITEN),法国原子能和替代能源委员会,Grenoble,法国

 

研究领域:

热、电以及热电输运的理论计算,低维材料,热电材料,拓扑材料,电声耦合,声子物理,光谱(拉曼,光吸收等)模拟

 

指导学生:

孟繁臣,博士研究生(Clemson University),与HE Jian教授共同指导, 12/2016至今

付钰豪,博士研究生(吉林大学),与张立军教授共同指导, 09/2014-02/2016

马金龙,博士研究生(华中科技大学),与罗小兵教授共同指导, 09/2013-05/2016

 

指导博士后:

马金龙, 华中科技大学博士,06/2016至05/2018 现为华中科技大学教师

Zahid RASHID, 荷兰Utrecht University博士,09/2016至11/2018

Arun NISSIMAGOUDAR, 印度Karnatak University博士,09/2016至11/2018 现为UNIST博士后

陈雅妮, 法国Joseph Fourier University博士,10/2016至09/2019 现为副研究员

Ashis Kundu, 印度IIT Guwahati博士,03/2019至今

杨小龙, 西安交通大学博士,07/2019至今

刘志超, 西安交通大学博士,09/2019至今

孙松松, 西南交通大学博士,11/2019至今

 

发表论文:(* 指示通讯作者)

(论文引用参见Google scholar https://scholar.google.com.hk/citations?user=DXiwgH8AAAAJ&hl=en)

51 Fanchen Meng, Songsong Sun, Jinlong Ma, Charles Chronister, Jian He, Wu Li*, Anisotropic thermoelectric figure-of-merit in Mg3Sb2, Materials Today Physics 13, 100217 (2020)

50 Jinlong Ma, Arun S. Nissimagoudary, Shudong Wang, Wu Li*, High thermoelectric figure of merit of full-Heuslers Ba2AuX (X=As, Sb and Bi), physica status solidi (RRL) - Rapid Research Letters (2020)

49 Ashis Kundu, Jinlong Ma, Jesús Carrete, Georg K. H. Madsen and Wu Li*, Phonons anomalously Dominate the Thermal Conductivity in the Metallic Tungsten Carbide and its origin in the electronic structure, Materials Today Physics 13, 100214 (2020)

48 Tao Hu, Jinxing Yang, Wu Li, and Xiaohui Wang, and Changming Li, Quantifying the rigidity of 2D carbide (MXenes), Phys. Chem. Chem. Phys. 22, 2115 (2020)

47 Bonny Dongre, Jesús Carrete, Shihao Wen, Jinlong Ma, Wu Li, Natalio Mingo, Georg K. H. Madsen, Combined treatment of phonon scattering by electrons and point defects explains the thermal conductivity reduction in highly-doped Si, Journal of Materials Chemistry A 8, 1273(2020)

46 Yani Chen, Peipei Wang, Minghui Wu, Jinlong Ma, Shihao Wen, Xuefeng Wu, Gaomin Li, Yue Zhao, Kedong Wang, Liyuan Zhang, Li Huang, Wu Li, Mingyuan Huang, Raman spectra and dimensional effect on the charge density wave transition in GdTe3, Appl. Phys. Lett. 115, 151905 (2019)

45 Ashis Kundu, Fabian Otte, Jesús Carrete, Paul Erhart, Wu Li, Natalio Mingo, and Georg K. H. Madsen, Effect of local chemistry and structure on thermal transport in doped GaAs, Phys. Rev. Materials 3, 094602 (2019)

44 Yani Chen, Jinlong Ma, Shihao Wen and Wu Li*, Body-centered-cubic structure and weak anharmonic phonon scattering in tungsten, npj Computational Materials 5, 98 (2019)

43 Tianqi Deng, Xue Yong, Wen Shi, Chee Kwan Gan, Wu Li, Kedar Hippalgaonkar, Jin-Cheng Zheng, Xiaobai Wang, Shuo-Wang Yang, Jian-Sheng Wang, and Gang Wu*, 2D Single-Layer π-Conjugated Nickel Bis(dithiolene) Complex: A Good-Electron-Poor-Phonon Thermoelectric Material, Adv. Electron. Mater. 5, 1800892(2019)

42 Zahid Rashid, Arun S. Nissimagoudar, and Wu Li*, Phonon transport and thermoelectric properties of semiconducting Bi2Te2X (X = S, Se, Te) monolayers, Phys. Chem. Chem. Phys. 21, 5679 (2019)

41 Xiaoli Chen, Pu Huang, Xin Zhu, Suixing Zhuang, Hengcheng Zhu, Jingjing Fu, Arun S. Nissimagoudar, Wu Li, Xiuwen Zhang, Li Zhou, Yan Wang, Ziyu Lv, Ye Zhou* and Su-Ting Han*, Keggin-type polyoxometalate cluster as an active component for redox-based nonvolatile memory, Nanoscale Horizons, (2019)

40 Fanchen Meng, Jinlong Ma, Jian He, and Wu Li*, Phonon-limited carrier mobility and temperature-dependent scattering, Phys. Rev. B 99, 045201 (2019)

39 Yani Chen, Jinlong Ma, and Wu Li*, Understanding the thermal conductivity and Lorenz number in tungsten from first principles, Phys. Rev. B 99, 020305 (Rapid Communication) (2019)

38 Liyan Zhu, Wu Li, and Feng Ding*, Giant thermal conductivity in diamane and the influence of horizontal reflection symmetry on phonon scattering, Nanoscale, 11, 4248 (2018)

37 Tao Hu, Minmin Hu, Bo Gao, Wu Li*, and Xiaohui Wang*, Screening Surface Structure of MXenes by High-Throughput Computation and Vibrational Spectroscopic Confirmation, J. Phys. Chem. C, 2018, 122 (2018)

36 Dianwei Hou, Arun S Nissimagoudar, Qiang Bian, Kui Wu, Shilie Pan*, Wu Li*, and Zhihua Yang*, Prediction and Characterization of NaGaS2, A High Thermal Conductivity Mid-Infrared Nonlinear Optical Material for High-Power Laser Frequency Conversion, Inorg. Chem. 58, 93 (2019)

35 Jinlong Ma, Yani Chen, and Wu Li*, Intrinsic phonon-limited charge carrier mobilities in thermoelectric SnSe, Phys. Rev. B 97, 025207 (2018)

34 Zahid Rashid, Liyan Zhu and Wu Li*, Effect of confinement on anharmonic phonon scattering and thermal conductivity in pristine silicon nanowires, Phys. Rev. B 97, 075441 (2018)

33 Xiaolong Yang and Wu Li*, Optimizing phonon scattering by tuning surface-interdiffusion-driven intermixing to break the random-alloy limit of thermal conductivity, Phys. Rev. Materials 02, 015401 (2018)

32 Jinlong Ma, Arun Nissimagoudar, and Wu Li*, First-principles study of electron and hole mobilities of Si and GaAs, Phys. Rev. B 97, 045201 (2018)

31 Arun Nissimagoudar, Jinlong Ma, Yani Chen, and Wu Li*, Thermal transport in monolayer InSe, J. Phys.: Condens. Matter 29, 335702 (2017) Highlights of 2017 Featured Article

30 Wei Lai Liu, Mao Lin Chen, Xiao Xi Li, Sudipta Dubey, Ting Xiong, Zhi Ming Dai, Jun Yin, Wan Lin Guo, Jin Long Ma, Ya Ni Chen, Jun Tan, Da Li, Zhen Hua Wang, Wu Li, Vincent Bouchiat, Dong Ming Sun*, Zheng Han* and Zhi Dong Zhang, Effect of aging-induced disorder on the quantum transport properties of atomically thin WTe2. 2D Mater. 4, 011011(2017)

29 Jinlong Ma, Yani Chen, Zheng Han, and Wu Li*, Strong Anisotropic Thermal Conductivity of Monolayer WTe2, 2D Mater. 3, 045010 (2016)

28 Liyan Zhu, Baowen Li, and Wu Li*, Phonon transport in silicon nanowires: The reduced group velocity and surface-roughness scattering. Phys. Rev. B 94, 115420 (2016)

27 Yuhao Fu, David Singh, Wu Li*, and Lijun Zhang*, Intrinsic ultralow lattice thermal conductivity of unfilled skutterudite FeSb3. Phys. Rev. B 94, 075122 (2016)

26 Guangqian Ding, Jesús Carrete, Wu Li, G. Y. Gao*, and Kailun Yao, Ultralow lattice thermal conductivity in topological insulator TlBiSe2. Appl. Phys. Lett. 108, 233902 (2016)

25 Wu Li*, J. Carrete, G. K. H. Madsen* and N. Mingo*, Influence of the optical-acoustic phonon hybridization on phonon scattering and thermal conductivity. Phys. Rev. B 93, 205203 (2016)

24 J. Carrete, Wu Li, L. Lindsay, D. Broido, L. Gallego, and N. Mingo, Physically founded phonon dispersions of few-layer materials, and the case of borophene. Mater. Res. Lett. 4, 204 (2016)

23 Jinlong Ma, Wu Li*, and Xiaobing Luo*, Intrinsic thermal conductivities and size effect of alloys of wurtzite AlN, GaN and InN from the first-principles. J. Appl. Phys. 119, 125702 (2016)

22 Jinlong Ma, Wu Li*, and Xiaobing Luo*, Ballistic thermal transport of monolayer transition metal dichalcogenides: The role of atomic mass. Appl. Phys. Lett. 108, 082102 (2016)

21 Wu Li*, Electrical transport limited by electron-phonon coupling from Boltzmann transport equation: An ab initio study of Si, Al, and MoS2. Phys. Rev. B 92, 075405 (2015)

20 Wu Li* and Natalio Mingo, Ultralow lattice thermal conductivity of the fully filled skutterudite YbFe4Sb12 due to the flat avoided-crossing filler modes. Phys. Rev. B 91, 144304 (2015)

19 N. A. Katcho, J. Carrete, Wu Li, and N. Mingo, Effect of nitrogen and vacancy defects on the thermal conductivity of diamond: an ab initio Green’s function approach. Phys. Rev. B 90, 094117 (2014)

18 Wu Li* and Natalio Mingo, Lattice dynamics and thermal conductivity of skutterudites CoSb3 and IrSb3 from first principles: Why IrSb3 is a better thermal conductor than CoSb3. Phys. Rev. B 90, 094302 (2014)

17 Jinlong Ma, Wu Li*, and Xiaobing Luo*, Intrinsic thermal conductivity and its anisotropy of wurtzite InN. Appl. Phys. Lett. 105, 082103 (2014)

16 Jinlong Ma, Wu Li*, and Xiaobing Luo*, Examining the Callaway model for lattice thermal conductivity. Phys. Rev. B 90, 035203 (2014)

15 Wu Li* and Natalio Mingo*, Thermal conductivity of fully filled skutterudites: Role of the filler. Phys. Rev. B 89, 184304 (2014)

14 L. Lindsay, W. Li, J. Carrete, N. Mingo, D. Broido, and T. Reineche, Phonon thermal transport in strained and unstrained graphene from first principles. Phys. Rev. B 89, 155426 (2014)

13 W. Li*, J. Carrete*, N. A. Katcho, and N. Mingo*, ShengBTE: a solver of the Boltzmann transport equation for phonons. Comput. Phys. Commun. 185, 1747 (2014) http://www.shengbte.org/

12 J. Carrete, W. Li, N. Mingo, S. Wang, and S. Curtarolo, Finding Unprecedentedly Low-Thermal-Conductivity Half-Heusler Semiconductors via High-Throughput Materials Modeling. Phys. Rev. X 4, 011019 (2014)

11 Wu Li*, Jesus Carrete, and Natalio Mingo*, Thermal conductivity and phonon linewidths of monolayer MoS2 from first principles. Appl. Phys. Lett. 103, 253013 (2013)

10 Wu Li, and Natalio Mingo, Thermal conductivity of bulk and nanowire InAs, AlN, and BeO polymorphs from first principles. J. Appl. Phys. 114, 183505 (2013)

9 P. Chen, N. A. Katcho, J. P. Feser, Wu Li, M. Glaser, F. Schäffler, O. G. Schmidt, David. G. Cahill, N. Mingo, A. Rastelli, Role of Surface-Segregation-Driven Intermixing on the Thermal Transport through Planar Si/Ge Superlattices. Phys. Rev. Lett. 111, 115901 (2013)

8 Wu Li* and Natalio Mingo*, Alloy enhanced anisotropy in the thermal conductivity of SixGe1-x nanowires. J. Appl. Phys. 114, 054307 (2013)

7 Wu Li, L. Lindsay, D. A. Broido, Derek A. Stewart, and Natalio Mingo, Thermal conductivity of bulk and nanowire Mg2SixSn1−x alloys from first principles. Phys. Rev. B 86, 174307 (2012)

6 Carolina Abs da Cruz, Wu Li, Nebil A. Katcho, and Natalio Mingo, Role of phonon anharmonicity in time-domain thermoreflectance measurements. Appl. Phys. Lett. 101, 083108 (2012)

5 Wu Li*, Natalio Mingo*, L. Lindsay, D. A. Broido, D. A. Stewart, and N. A. Katcho, Thermal conductivity of diamond nanowires from first principles. Phys. Rev. B 85, 195436 (2012)

4 H. Sevinçli#, W. Li#, N. Mingo, G. Cuniberti, and S. Roche, Effects of domains in phonon conduction through hybrid boron nitride and graphene sheets. Phys. Rev. B 84, 205444 (2011) (#The first two authors contributed equally and share first authorship of this work.)

3 W. Li, H. Sevinçli, S. Roche, and G. Cuniberti, Efficient Linear Scaling method for computing the Phonon Thermal Conductivity. Phys. Rev. B 83, 155416 (2011) (Selected as Editors’ Suggestion)

2 W. Li, H. Sevinçli, G. Cuniberti, and S. Roche, Phonon transport in large scale carbon-based disordered materials: Implementation of an efficient order-N and real-space Kubo methodology. Phys. Rev. B 82, 041410 (Rapid Communication) (2010)

1 D. Nozaki, H. Sevinçli, W. Li, R. Gutierrez, and G. Cuniberti, Engineering the figure of merit and thermopower in single-molecule devices connected to semiconducting electrodes. Phys. Rev. B 81, 235406 (2010)

 

专著章节:

3 李武*,《纳米材料热传导》第七章:玻尔兹曼方程输运计算;主编:段文晖,张刚;科学出版社 (2017)

2 N. Mingo, D. A. Stewart, D. A. Broido, L. Lindsay, and W. Li, Ab-initio Thermal Transport in “Length-Scale Dependent Phonon Interactions”, S. L. Shinde, G. P. Srivastava (Editors), Springer (2014)

1 C. G. Rocha, M. H. Rümmeli, I. Ibrahim, H. Sevincli, F. Börrnert, J. Kunstmann, A. Bachmatiuk, M. Pötschke, W. Li, S. A. M. Makharza, S. Roche, B. Büchner, G. Cuniberti, Tailoring the physical properties of graphene in "Graphene: Synthesis and Applications", W. Choi, J-W. Lee (Editors), CRC Press (2011).