Gender:

Male

Title:

Professor

Department:

Materials physics and chemistry

Highest   academic credential:

Graduate

Degree:  

Ph.   D.

TEL:

0431-89228920

Email：

lijun_zhang@jlu.edu.cn

Academic homepage:

http://www.researcherid.com/rid/F-7710-2011

Discipline:

Materials physics and chemistry

Research Interests:

Material computer simulation, new material   design, semiconductor optoelectronic materials, semiconductor material   physics, new energy materials

Courses:

General Physics II   (Undergraduate)

Material calculation methods and techniques (Undergraduate Experimental   Class)

Education background:

2003/09－2008/06,   Ph. D., Condensed Matter Physics, State Key Laboratory of Superhard   Materials, Jilin University (JLU)

1999/09－2003/06,   Bachelor, Department of Physics, Northeast Normal University

Working experience:

Selected to be funded by Excellent Young   Scientists Fund in 2017

2014/09－Now,   Professor & doctoral supervisor, School of Materials Science and Engineering,   JLU

Selected into the National Program for High-level   Overseas Talents Introduction in 2014

2013/02－2014/09,   Research Assistant Professor, University of Colorado, Boulder [America]

2013/02－2014/09,   one of the project leaders, Reversely Designed Energy Frontier Research   Center, Department of Energy [America]

2010/02－2013/01,   Postdoctoral reseacher, National Renewable Energy Laboratory [America]

2008/07－2010/01,   Postdoctoral reseacher, Oak Ridge National Laboratory [America]

Scientific research:

1. National Program for High-level Overseas Talents   Introduction："Research and design of physical properties of semiconductor   functional materials", RMB 2 million, 2015/01－2019/12

2. Excellent Young Scientists Fund project: "Research   on energy band modulation of semiconductor functional materials and design of   new materials", RMB 1.3 million, 2018/01－2020/12

3. National Key Research and Development Program: "Research   on software system integration and typical application demonstration of   E-level computing", RMB 1.705 million, 2016/07－2020/12

4. Major Research Program of the National Foundation   of China: “Research on semiconductor high-core cluster theory based on   machine learning algorithm”、RMB 0.8 million, 2021/01-2023/12

5. General Project of National Foundation of China："Research on design and transport properties of telluride based   thermoelectric functional materials at high pressure", RMB 0.6 million, 2017/01－2020/12

Youth Project of National Foundation of China："Material design study aimed at optimizing the photoelectric   properties of graphene-like VIB group transition metal chalcogenides",   RMB 0.29 million, 2015/01－2017/12

Academic paper:

To solve the scientific problem of reverse design of new semiconductor   materials, he proposed and developed JAMIP (Jilin Artificial-intelligence   aided Materials-design Integrated Package), a material design method and   software with independent property rights. With self-developed material   design methods and software, he carries out research on new material design   and physical property control. A number of new optoelectronic semiconductors   and new physical property control ideas designed and predicted theoretically   have been confirmed by experiments. A series of innovative research results   have been obtained in the optimization of optoelectronic properties,   detoxification and stability improvement of optoelectronic semiconductor   materials.

Up to now, he has published more than 140 SCI indexed papers, which have been cited for more than 8200   times with an h-factor value of 46. Since returning to China and joining JLU   in 2014, he has published over 70 papers as the first/corresponding author at   SCI indexed journals such as Nature Rev. Mater. (1), Nature Photonics (1),   Nature Commun. (5), Nano Lett. (4), Adv. Mater./Adv. Funct. Mater. (4), J.   Am. Chem. Soc. (5).

Representative papers (* for corresponding author):

[37] “New Polymorphs of   Two-Dimensional Indium Selenide with Enhanced Electronic Properties”, Adv.   Funct. Mater. 30, 2001920 (2020), Sun, Li, Li, Biswas, Patanè and LJZ*.

[36] “High Color-Rendering Index   and Stable White Light-Emitting Diodes by Assembling Two Broadband Emissive   Self-Trapped Excitons”, Adv. Mater. 33, 2001367 (2020), Ma, Shi*, Yang, Li,   Zhang, Wang, Li, Wu, Tian, Zhang, LJZ*, Li and Shan*.

[35] “Efficient and Stable   Ruddlesden-Popper Perovskite Solar Cell with Tailored Interlayer Molecular   Interaction”, Nature Photonics 14, 154 (2020), Ren, Yu, Chao, Xia, Sun, Zuo,   Li, Niu, Yang, Ju, Li, Du, Gao, Zhang, Wang, LJZ*, Chen* and Huang*.

[34] “Colloidal Synthesis of   Ternary Copper Halides Nanocrystals for High-Efficiency Deep-Blue   Light-Emitting Diodes with a Half-Lifetime Above 100 Hours”, Nano Lett. 20,   3568 (2020), Wang, Shi*, Ma, Yang, Zhang, Ji, Wang, Chen, Na, Chen, Wu,   Zhang, Li, LJZ* and Shan*.

[33] “Stable Yellow Light-Emitting   Devices Based on Ternary Copper Halides with Broadband Emissive Self-Trapped   Excitons”, ACS Nano 14, 4475 (2020), Ma, Shi*, Qin, Cui, Yang, Wang, Wang,   Ji, Chen, Sun, Wu, Zhang, Li, LJZ*, Shan*.

[32] “Van der Waals SnSe2(1−x)S2x   Alloys: Composition‐Dependent Bowing Coefficient   and Electron–Phonon Interaction”, Adv. Funct. Mater. 30, 1908092 (2020),   Kudrynskyi, Wang, Sutcliffe, Bhuiyan, Fu, Yang, Makarovsky, Eaves, Solomon,   Maslyuk, Kovalyuk, LJZ*, Patanè*.

[31] “Stable and Luminescent Halide   Perovskite Fabricated in Water”, Light: Science & Applications 9, 106   (2020), Na and LJZ*.

[30] “Bottom-up Growth of   Homogeneous Moiré Superlattices in Bismuth Oxychloride Spiral Nanosheets”,   Nature Commun. 10, 4472 (2019), Liu, Sun, Cui*, Qi, He, Bao, Ma, Lu, Fang,   Zhang, Zheng, Yu, Singh, Xiong, LJZ* and Zheng*.

[29] “Atomically Engineering   Activation Sites onto Metallic 1T-MoS2 Catalysts for Enhanced Electrochemical   Hydrogen Evolution”, Nature Commun. 10, 982 (2019), Huang, Sun, Zheng, Aoki,   Pattengale, Huang, He, Bian, Younan, Williams, Hu, Ge, Pu, Yan, Pan, LJZ*,   Wei* and Gu*.

[28] “Strain Engineering in   Perovskite Solar Cells and Its Impacts on Carrier Dynamics”, Nature Commun.   10, 815 (2019), Zhu, Niu, Fu, Li, Hu, Chen, Na, Liu, Zai, Ge, Lu, Ke, Bai,   Yang, Chen, Li, Sui, LJZ*, Zhou* and Chen*.

[27] “Ultrasensitive Detection of   miRNA with an Antimonene-Based Surface Plasmon Resonance Sensor”, Nature   Commun. 10, 28 (2019), Xue, Liang, Li, Sun, Xiang, Zhang, Dai, Duo, Wu, Qi,   Nanjunda, Shivananju, LJZ*, Cui*, Zhang* and Bao*.

[26] “Thermochromic Lead‐Free Halide Double Perovskites”, Adv. Funct. Mater. 29,   1807375 (2019), Ning, Zhao, Klarbring, Bai, Ji, Wang, Simak, Tao, Ren, LJZ*,   Huang, Abrikosov and Gao* .

[25] “Dopability of Divalent Tin   Containing Phosphates for p-Type Transparent Conductors”, Phys. Rev.   Materials 3, 124606 (2019), Li, Li, Faizan, Peng*, LJZ*.

[24] “Impact of Organic Molecule   Rotation on the Optoelectronic Properties of Hybrid Halide Perovskites”,   Phys. Rev. Materials 3, 125401 (2019), Xu, Stroppa, Lv, Zhao, Yang, Biswas,   LJZ*.

[23] “Pressure-Induced Emission of   Cesium Lead Halide Perovskite Nanocrystals”, Nature Commun. 9, 4506 (2018),   Ma, Liu, Lu, Wang, Feng, Yang, Wang, Xiao*, LJZ*, Redfern and Zou*.

[22] “Dielectric Behavior as a   Screen in Rational Searches for Electronic Materials: Metal Pnictide   Sulfosalts”, J. Am. Chem. Soc. 140, 18058 (2018), He, Singh*, Patsorn   Boon-on, Lee* and LJZ*.

[21] “Experimental Identification   of Critical Condition for Drastically Enhancing Thermoelectric Power Factor   of Two-Dimensional Layered Materials”, Nano Lett. 18, 7538 (2018), Zeng, He,   Liang*, Liu, Sun, Pan, Wang, Cao, Liu, Wang, Zhang, Yan, Su, Wang, Watanabe,   Taniguchi, Singh, LJZ* and Miao*.

[20] “Chlorine-Incorporation-Induced   Formation of the Layered Phase for Antimony-Based Lead-Free Perovskite Solar   Cells”, J. Am. Chem. Soc. 140, 1019 (2018), Jiang, Yang, Jiang, Liu, Zhao,   Ming, Luo, Qin, Fan, Han, LJZ* and Zhou*.

[19] “Formation and Diffusion of   Metal Impurities in Perovskite Solar Cell Material CH3NH3PbI3: Implications   on Solar Cell Degradation and Choice of Electrode”, Advanced Science 5, 1700662 (2018), Ming, Yang, Li, LJZ* and   Du*.

[18] “Rational Design of Halide   Double Perovskites for Optoelectronic Applications”, Joule 2, 1662 (2018),   Zhao, Yang, Ren, Sun, Xiao* and LJZ*.

[17] “Intrinsic Defect Properties   in Halide Double Perovskites for Optoelectronic Applications”, Phys. Rev.   Applied (Published as Letter) 10, 041001 (2018), Li, Zhao, Yang, Du* and   LJZ*.

[16] “Materials Discovery at High   Pressures”, Nature Reviews Materials 2, 17005 (2017), LJZ, Wang, Lv and Ma*.

[15] “Cu-In Halide Perovskite Solar   Absorbers”, J. Am. Chem. Soc. 139, 6718 (2017), Zhao, Yang, Sun, Li, LJZ*, Yu   and Zunger.

[14] “Design of Lead-Free Inorganic   Halide Perovskites for Solar Cells via Cation-Transmutation”, J. Am. Chem.   Soc. 139, 2630 (2017), Zhao, Yang, Fu, Yang, Xu, Yu, Wei* and LJZ*.

[13] “Highly Oriented   Low-Dimensional Tin Halide Perovskites with Enhanced Stability and   Photovoltaic Performance”, J. Am. Chem. Soc. 139, 6693 (2017), Liao, Liu,   Zhou, Yang, Shang, Shi, Li, Jiang, LJZ*, Quan, Quintero-Bermudez, Sutherland,   Mi, Sargent and Ning*.

[12] “Tellurium Hydrides at High   Pressures: High-Temperature Superconductors”, Phys. Rev. Lett. 116, 057002   (2016), Zhong, Wang, Zhang, Liu, Zhang, Song, Yang*, LJZ* and Ma*.

[11] “Intrinsic Ultralow Lattice   Thermal Conductivity of the Unfilled Skutterudite FeSb3”, Phys. Rev. B 94, 075122 (2016), Fu, Singh, Li* and LJZ*.

[10] “Evolution of Electronic   Structure as a Function of Layer Thickness in Group-VIB Transition Metal   Dichalcogenides: Emergence of Localization Prototypes”, Nano Lett. 15, 949   (2015), LJZ* and Zunger*.

[9] “Reinterpretation of the   Expected Electronic Density of States of Semiconductor Nanowires”, Nano Lett.   15, 88 (2015), Wang, Luo, LJZ* and Zunger*.

[8] “Genetic Design of Enhanced   Valley Splitting towards a Spin Qubit in Silicon”, Nature Commun. 4, 2396   (2013), LJZ*, Luo, Saraiva, Koiller* and Zunger*.

[7] “The Birth of a Type-II   Nanostructure: Carrier Localization and Optical Properties of   Isoelectronically Doped CdSe:Te Nanocrystals”, ACS Nano 6, 8325 (2012), LJZ*,   Lin, Luo and Franceschetti*.

[6] “Genomic Design of Strong   Direct-Gap Optical Transition in Si/Ge Core/Multishell Nanowires”, Nano Lett.   12, 984 (2012), LJZ*, d’Avezac, Luo and Zunger*.

[5] “Wide InP Nanowires with   Wurtzite/Zincblende Superlattice Segments are Type-II whereas Narrower   Nanowires Become Type-I: An Atomistic Pseudopotential Calculation”, Nano   Lett. 10, 4055 (2010), LJZ, Luo, Zunger*, Akopian, Zwiller and Harmand.

[4] “Comment on ‘Spectroscopic   Signatures of Novel Oxygen-Defect Complexes in Stoichiometrically Controlled   CdSe”, Phys. Rev. Lett. 102, 209601 (2009), LJZ, T-Thienprasert, Du, Singh   and Limpijumnong.

[3] “Density Functional Study of   Excess Fe in Fe1+xTe: Magnetism and Doping”, Phys. Rev. B 79, 012506 (2009),   LJZ, Singh and Du.

[2] “CaCl2-Type High-Pressure   Phase of Magnesium Hydride Predicted by ab initio Phonon Calculations”, Phys.   Rev. B 75, 144109 (2007), LJZ, Wang, Cui, Li, Li, He, Ma* and Zou.

[1] “Pressure-Induced Enhancement   of Electron-Phonon Coupling in Superconducting CaC6 from First Principles”,   Phys. Rev. B 74, 184519 (2006), LJZ, Xie, Cui, Li, He, Ma* and Zou.

Awards:

[1] National Program for High-level Overseas Talents Introduction, Organization   Department of the Central Committee of the CPC, 2014

[2] Youth Project of National Foundation of China, 2017

[3] “Youth Award in Computational Materials Science (one person each time)”,   Chinese Materials Research Society, 2018

[4] “Youth Science and Technology Award of Jilin Province—Special Prize (3   people each time)”, Organization Department of Jilin Provincial Party   Committee, 2019

[5] The seventh batch of experts with outstanding contributions Changchun   City, 2019

[6] The   16th batch of experts enjoying government allowance (Provincial experts with   outstanding contributions), Jilin province, 2020

Part-time positions:

[1] Young Star   Editor of Nano Research

[2] Associated   Editor of Nano Select

[3] Editorial board member of Journal of Semiconductors

[4] Youth editorial board member of Chinese Optics Letters

[5] Reviewer of international academic journals such as Nature, Nature   Commun., Phys. Rev. Lett., Adv. Mater., J. Am. Chem. Soc., Nano Lett., Phys.   Rev.