Rui Wang

Hits： Update time: 08.Apr.2022

Educational background and work experience:

September 2003 - June 2007: Bachelor's degree in Applied Physics, Chongqing University

Sep. 2007 - Jun. 2009: Chongqing University, Master's degree in Condensed Matter Physics

2009-03-2012-06: Ph.D. in Condensed Matter Physics, Chongqing University

2012-07-present: Department of Physics, College of Physics, Chongqing University, as Lecturer, Associate Professor, Professor

Aug. 2017 - Aug. 2018: Senior Visiting Scholar, Southern University of Science and Technology

2018: Selected as a reserve talent of Chongqing University

Selected as Chongqing Talent - Young Talent in 2019

Research Interests:

Computational condensed matter physics

Property study and design of topological materials

Defect physics

Study of transport properties of topological quantum states

Disordered condensed matter systems

Basic information:
He has been engaged in the research of computational condensed matter physics for a long time. Through theoretical modeling and numerical calculation, and combining symmetry analysis, effective medium theory, and tight-binding model, he has carried out a series of researches on the theoretical design and quantum regulation of solid topological defects, topological electronic materials, and topological phonon materials, etc. The related research results have been published in the journals of Phys. Rev. Lett. Phys. Rev. Lett. and more than 20 articles in Phys. Rev. B (10 of which are in PRB Rapid Commun. or Letter), and the research results have attracted wide attention and recognition from domestic and international peers. He has been selected as one of the top young talents in Chongqing, and has served as a reviewer for international journals such as Nature Communications, Phys. Rev. Lett.

Talent cultivation:

1、Taught undergraduate major course "Thermal Science", public basic course "University Physics", and graduate courses "Solid Energy Band Theory" and "Condensed Matter Physics" in the School of Physics.

2. serving as the coach of the National Undergraduate Academic Physics Competition for a long time, and the judge of the 4th, 5th, 6th and 7th National Academic Physics Competition for University Physics.

3、Taught several graduate students to win the National Scholarship for Graduate Students, and was nominated for the International Maxwell Prize, etc.

Onging research projects

Central University Fund Frontier Crossover Project (2020.01-2021.12, $150,000), responsible

Chongqing Young Talent Program (2020.01-2022.12, $400,000), responsible person

National Natural Science Foundation of China (Grant No. 11974062, 2020.01-2023.12, $620,000), Director

Chongqing Foundation Project (Grant No.: cstc2019jcyj-msxmX0563, 2019.07-2022.06, 100,000), responsible

Chongqing University Reserve Top Talent Project (Grant No.: cqu2018CDHB1B01, 2018.07-2021.07, 400,000), person in charge

Central University Fund Enhancement Project (Grant No. 2019CDXYWL0029, 2019. 01-2020. 12), responsible

National Natural Science Foundation of China (Grant No. 91634106, 2017.01-2020.12,), participant

National Natural Science Foundation of China Youth Project (Grant No. 11304403, 2014.01-2016.12), leader.

Central University Fund Project (Grant No. 106112015CDJXY300006, 2015.01-2016.12), responsible.

Chongqing University Talent Start-up Fund, person in charge.

Central University Fund Key Project (Grant No. CQDXWL-2013-Z011, 2013.09-2015.08), person in charge.

National Natural Science Foundation of China (Grant No. 11074313), principal.

National Natural Science Foundation of China Youth Program (Grant No. 11104361), principal investigator.

National Basic Research Planning Project (973 Program), Ministry of Science and Technology (Grant No. 2011CB209401-4), principal investigator.

Awards received.
Tang Lixin Outstanding Research Teacher Award, Chongqing University (2020).

Chongqing Talented Young Talent (2019);

Reserve Top Talent of Chongqing University (Category B);

Academic Newcomer Award for Doctoral Students, Ministry of Education.

The First International Workshop on Quantum Transport "Graduate Scholarship" (Renmin University of China, Beijing).

Baosteel Education Fund Outstanding Student Award.

2009 "Top Ten Class Teacher" of Chongqing University.

Outstanding graduate student in Chongqing.

Academician Huang Shanglian's Innovation Individual Award.

Academic Award" of Chongqing University.

"Second Prize of Chongqing National College Student Mathematical Modeling Competition.

Representative academic papers:

* Corresponding Author

# Equal Contributions

2022

▲Fangyang Zhan, Zhen Ning, Li-Yong Gan, Baobing Zheng, Jing Fan,and Rui Wang*. Floquet valley-polarized quantum anomalous Hall state in nonmagnetic heterobilayers.Phys. Rev. B 105, L081115(Letter)(2022).

▲Zhen Ning, Bo Fu, Dong-Hui Xu*, Rui Wang*.Tailoring Quadrupole Topological Insulators with Periodic Driving and Disorder.arXiv:2201.02414(2022).

▲Xiu-Li Du,Rui Chen,Rui Wang*,and Dong-Hui Xu*.Weyl nodes with higher-order topology in an optically driven nodal-line semimetal.Phys. Rev. B. 105, L081102(Letter)(2022).

▲Fangyang Zhan, Baobing Zheng*, Xiaoliang Xiao, Jing Fan, Xiaozhi Wu, Rui Wang*. Magnetic field induced Valley-Polarized Quantum Anomalous Hall Effects in Ferromagnetic van der Waals Heterostructures. Phys. Rev. B 105, 035131(2022).

▲Zhen Ning, Baobing Zheng, Dong-Hui Xu*, Rui Wang*. Photoinduced Quantum Anomalous Hall States in the Topological Anderson Insulator.Phys. Rev. B 105, 035103(2022).

▲Shi Xiao, Xiaoliang Xiao, Fangyang Zhan, Jing Fan, Xiaozhi Wu, Rui Wang*. Spin-polarized topological phases in ferromagnetic Bi2Se3/MnBi2Te4 bilayer tuned by electric and magnetic fields. Phys. Rev. B 105, 125126(2022).

▲Y.Yang, R. Wang*, M.-Z. Shi, Z. Wang, Z. Xiang, and X.-H. Chen. Symmetry-protected Dirac nodal lines and large spin Hall effect in V6Sb4 with kagome bilayer. Phys. Rev. B 105, 155102 (2022).

▲L.Huang, X.Z. Wu, Y. Tao, M. Li*, and R. Wang*. Charge induced reconstruction of glide partial dislocations and electronic properties in GaN. Scr. Mater. 207, 114276(2022).

▲ C. Zhang, X. Jin, Y. Liang, J. Li, R. Wang*, B. Liu, X. Lv*, and X. Jiang*, Homogeneous and well-aligned GaN nanowire arrays via a modified HVPE process and their cathodoluminescence properties. Nanoscale 14, 1459 (2022).

▲X. Jin, R. Wang*, Y. Zhou, J. Lai, J. Li, G. Pei, S. Chen, X. Wang, J. Xiang, Z. Zhu*, X. Lv*. A comprehensive experimental and first-principles study on magnesium-vanadium oxides. J. Alloys Com. 896, 162862 (2022).

2021

▲Y. Yang, R. Wang*, M.-Z. Shi, Z. Wang, Z. Xiang, and X.-H. Chen.Type-II nodal line fermions in the Z2 topological semimetals AV6Sb6 (A=K, Rb, and Cs) with a kagome bilayer. Phys. Rev. B 104, 245128 (2021).

▲Z. Z. Zhou, H. J. Liu, G. Y. Wang, R. Wang*,and X. Y. Zhou*. Dual Topological Features of Weyl Semimetallic Phases in Tetradymite BiSbTe3. Chin. Phys. Lett. 38, 077101 (2021). (Editor's Suggestions)

▲Baobing Zheng, Fangyang Zhan, Xiaozhi Wu, Rui Wang*, Jing Fan*. Symmorphic and nonsymmorphic symmetries jointly-protected hourglass phonons. Phys. Rev. B 104, L060301(Letter) (2021) .

▲Cheng Zhang, Wei Liu,* Fangyang Zhan, Teng Zhang, Liwei Liu, Min Zhang, Sen Xie, Ziwei Li, Hao Sang, Haoran Ge, Yonggao Yan, Rui Wang*, Yeliang Wang, Qingjie Zhang, and Xinfeng Tang*. Tendency of Gap Opening in Semimetal 1T′-MoTe2 with Proximity to a 3D Topological Insulator. Adv. Funct. Mater. 2103384 (2021).

▲ Pu Huang, Xinbo Chen, Peng Zhang, Hongyi Sun, Shaogang Xu, Wen Xiong, Rui Wang*, Han Zhang*, Qihang Liu* & Xiuwen Zhang*. Crystalline chirality and interlocked double hourglass Weyl fermion in polyhedra-intercalated transition metal dichalcogenides. NPG Asia Mater. 13:49 (2021).

▲Z. J. Chen, R. Wang, B. W. Xia, B. B. Zheng, Y. J. Jin, Yu-Jun Zhao, and H. Xu. Three-Dimensional Dirac Phonons with Inversion Symmetry. Phys. Rev. Lett. 126, 185301 (2021).

2020

▲Tingwei Deng, Baobing Zheng, Fangyang Zhan, Jing Fan, Xiaozhi Wu,and Rui Wang*,Photoinduced Floquet Mixed-Weyl Semimetallic Phase in a Carbon Allotrope, Phys. Rev. B 102, 201105 (Rapid) (2020)

▲Xian-Yong Ding, Chao Zhang* , Li-Yong Gan, Yu Cao, Lei-Lei Chen and Rui Wang*, Topological phase transition from T-carbon to bct-C16, New J. Phys. 22, 073036 (2020)

▲Chao Zhang*, Xian-Yong Ding, Li-Yong Gan, Yu Cao, Bing-Sheng Li, Xiaozhi Wu, Rui Wang*. Symmetry-guaranteed ideal Weyl semimetallic phase in face-centered orthogonal C6.Phys. Rev. B 101, 235119(2020).

▲Duan Lei, Wang Xiancheng*, Zhan Fangyang, Zhang Jun, Hu Zhiwei, Zhao Jianfa, Li Wenmin, Deng Zheng, Yu Runze, Lin Hong-Ji, Chen Chien-Te, Wang Rui*, Jin Chang-Qing*，Science China Materials, 63, pages 1750–1758 (2020) .

▲Rui Wang*, Yuanjun Jin, Bowen Xia, and Hu Xu*, Topological Quantum States in Magnetic Oxides, J. Phys. Chem. Lett. 11, 4036−4042 (2020) (Perspective).

▲Ruiling Zou, Fangyang Zhan, Baobing Zheng, Xiaozhi Wu, Jing Fan, Rui Wang*. Intrinsic quantum anomalous Hall phase induced by proximity in germanene/Cr2Ge2Te6 van der Waals heterostructure. Phys. Rev. B 101, 161108 (2020) (Rapid) arXiv:2002.12624 (2020).

▲Baobing Zheng, Bowen Xia, Rui Wang, Zhongjia Chen, Jinzhu Zhao, Yujun Zhao, and Hu Xu. Ideal type-III nodal-ring phonons. Phys. Rev. B 101, 100303(Rapid Comm.) (2020).

▲Jiali Yang, Baobing Zheng, Zhongjia Chen, Wangping Xu, Rui Wang*, Xu Hu*. Robust Topological States in Bi2Se3 against Surface Oxidation. J. Phys. Chem. C124, 6253-6259 ( 2020).

▲R. Wang, B. W. Xia, Z. J. Chen, B. B. Zheng, Y. J. Zhao, and H. Xu. Symmetry-protected topological triangular Weyl complex. Phys. Rev. Lett. 124, 105303 (2020).

2019 and Before

▲B. W. Xia, R. Wang#(#Equal Contributions), Z. J. Chen, Y. J. Zhao, and H. Xu. Symmetry-Protected Ideal Type-II Weyl Phonons in CdTe. Phys. Rev. Lett. 123, 065501 (2019).

▲ B. B. Zheng, B. W. Xia, R. Wang#(#Equal Contributions), J. Z. Zhao, Z. J. Chen, Y. J. Zhao, and H. Xu. Tunable ferromagnetic Weyl fermions from a hybrid nodal ring. npj Computational Materials 5, 74 (2019).

▲F. Y. Zhan, W. P. Xu, R. L. Zou, J. L. Yang, J. Fan, X. Z. Wu, and R. Wang*. Interplay of Charged States and Oxygen Dissociation Induced by Vacancies in Phosphorene. J. Phys. Chem. C123, 44, 27080-27087 (2019)

▲B. W. Xia, Y. J. Jin, J. Z. Zhao, Z. J. Chen, B. B. Zheng, Y. J. Zhao, R. Wang*, and H. Xu*. Robust Twin Pairs of Weyl Fermions in Ferromagnetic Oxides. Phys. Rev. Lett. 122, 057205 (2019).

▲Y. J. Jin, Z. J. Chen, B. W. Xia, Y. J. Zhao, R. Wang*, and H. Xu*. Large-gap quantum anomalous Hall phase in hexagonal organometallic frameworks. Phys. Rev. B 98, 245127 (2018)

▲Y. J. Jin, Z. J. Chen, B. W. Xia, Y. J. Zhao, R. Wang*, and H. Xu*. Ideal intersecting nodal-ring phonons in bcc C8. Phys. Rev. B 98, 220103 (2018) (Rapid Comm.)

▲Y. J. Jin, R. Wang*, and H. Xu*. Recipe for Dirac Phonon States with a Quantized Valley Berry Phase in Two-Dimensional Hexagonal Lattices. Nano Lett. 18, 7755-7760 (2018).

▲Y. J. Jin, R. Wang# (#Equal Contributions), B. W. Xia, B. B. Zheng, and H. Xu. Three-dimensional quantum anomalous Hall effect in ferromagnetic insulators. Phys. Rev. B, 98, 081101 (2018) (Rapid Comm.)

▲ J. Y. Jin, L. Y. Gan, R. Wang# (#Equal Contributions), Z. J. Zhao, Y. Y. Shan, J. F. Liu, H. Xu.Topological Rashba-like edge states in large-gap quantum spin Hall insulators. Phys. Rev. Mater. 2, 114207 (2018).

▲ Jiali Yang, Yuanjun Jin, Wangping Xu, Baobing Zheng*, Rui Wang*, Xu Hu*. Oxidation-Induced Topological Phase Transition in Monolayer 1T’-WTe2. J. Phys. Chem. Lett. 9, 4783−4788 (2018).

▲R. Wang, J. Z. Zhao, Y. J. Jin, Y. P. Du, Y. X. Zhao, H. Xu, and S. Y. Tong, Nodal line fermions in magnetic oxides, Phys. Rev. B 97, 241111(Rapid Comm.) (2018).

▲R. Wang, Y. J. Jin, J. Z. Zhao, Z. J. Chen, Y. J. Zhao, and H. Xu. Ferromagnetic Weyl fermions in CrO2. Phys. Rev. B 97, 195157 (2018).

▲R. Wang, J. Z. Zhao, Y. J. Jin, W. P. Xu, L. -Y. Gan, X. Z. Wu, H. Xu, S. Y. Tong. Recipe for Generating Weyl Semimetals with Extended Topologically Protected Features. Phys. Rev. B 96, 121104 (Rapid Comm.) (2017).

▲Y. Jin, R. Wang# (#Equal Contributions), Z. J. Chen, J. Z. Zhao, Y. J. Zhao, and H. Xu, FerromagneticWeyl semimetal phase in a tetragonal structure. Phys. Rev. B 96, 201102 (Rapid Comm.) (2017).

▲Y. Jin, R. Wang# (#Equal Contributions), J. Zhao, C. Zheng, L. Y. Gan, J. Liu, H. Xu, S. Y. Tong, The Prediction of a Family Group of Two-dimensional Node-Line Semimetals. Nanoscale 9, 13112 (2017) .

▲L.-Y. Gan, R. Wang, Y. J. Jin, D. B. Ling, J. Z. Zhao, W. P. Xu, J. F. Liu, H. Xu, Pressure-induced Topological Node-Line Semimetals in Alkaline-Earth Hexaborides XB6 (X=Ca, Sr, Ba) Phys. Chem. Chem.Phys. 19, 8210 (2017).

▲Wang Rui*, Jiali Yang, Xiaozhi Wu, and Shaofeng Wang. Local charge states in hexagonal boron nitride with Stone-Wales defects. Nanoscale, 8, 8210-8219 (2016).

▲Yingzhao Jiang, Rui Wang*, Shaofeng Wang, Temperature-dependent dislocation properties of aluminum from the improved Peierls-Nabarro model and first-principles. Philos. Mag., 96, 2829-2852 (2016).

▲Xie Ting, Wang Rui*, Shaofeng Wang, and Wu Xiaozhi*. Charge transfer of edge states in zigzag silicene nanoribbons with Stone-Wales defects from first-principles. Appl. Surf. Sci. 383, 310-316 (2016).

▲Wang Rui*, Wang Shaofeng, Wu Xiaozhi, Pressure induced structural instability of FeV intermetallic compound with B2 ordering, J. Alloy. Comp., 650:537-541 (2015).

▲Wang Shaofeng, Wang Rui, The core structure and pseudo-magnetic field of the dislocation in graphene, EPL, 104(2): 26002 (2013).

▲Wang Shaofeng, Huang Lili, and Wang Rui. The 90° partial dislocation in semiconductor silicon: An investigation from the lattice P-N theory and the first principle calculation. Acta Mater., 187-201 (2016).

▲Wang Rui*, Wang Shaofeng, Wu Xiaozhi, The formation and electronic properties of hydrogenated bilayer silicene from first-principles, J. Appl. Phys., 116(2):024303 (2014).

▲Wang Rui*, Wang Shaofeng, Wu Xiaozhi, First-principles phonon calculations on the lattice dynamics and thermodynamics of rare-earth intermetallics TbCu and TbZn, Intermetallics, 43: 65-70 (2013).

▲Wang Rui*, Wang Shaofeng, Wu Xiaozhi, The third-order elastic moduli and pressure derivatives for AlRE (RE = Y, Pr, Nd, Tb, Dy, Ce) intermetallics with B2-structure: A first-principles study , Solid State Comm.,151(4-15): 996-1000 (2011).

▲Wang Rui*, Wang Shaofeng, Wu Xiaozhi. First-principles determination of dislocation properties in Magnesium based on the improved Peierls-Nabarro equation. Phys. Scr., 81 (6):065601 (2010). (Cover Page)

▲Wu Xiaozhi, Wang Rui*, Wang Shaofeng et al. Ab initio calculations of generalized stacking fault energy surfaces and surface energies for FCC metals. Appl. Surf. Sci., 256(21):6345-6349 (2010).

Email：rcwang@cqu.edu.cn

Shaofeng Wang Aifeng Wang