2006.09–2010.06, Bachelor, Department of Physics, Renmin University of China

2010.09–2016.06, Doctoral, Department of Physics, Renmin University of China

2011.03–2011.05, Exchange Student, ETH Zurich (Swiss Federal Institute of Technology)

2014.04–2015.10, Visiting Student, Oak Ridge National Laboratory; Joint PhD Student, University of Kentucky, USA

2016.08–2024.08, Lecturer, Department of Physics, Renmin University of China

2024.08–Present, Associate Professor, School of Physics, Renmin University of China

1. Research on novel magnetic phenomena in materials, including: various novel magnetic states, magnetic quantum phase transitions, magnetically driven unconventional superconductivity, magnetic functional materials, etc. Utilizing neutron scattering centers worldwide (e.g., J-PARC in Japan, ISIS in the UK, PSI in Switzerland, Oak Ridge National Laboratory in the US, Bragg Institute in Australia), elastic and inelastic neutron scattering experiments are conducted under conditions such as pressure, magnetic fields, and low temperatures.

2. Development of neutron scattering techniques. Independently designed and constructed "Boya", China's first cold neutron broad-spectrum spectrometer, and responsible for its operation. The "Boya" spectrometer features an innovative detection array design, with detection efficiency at the world-leading level (funded by the National Major Scientific Research Instrument Development Project).

2023–2028, Key R&D Program of China, "Matter State Regulation" Key Special Project (Core Member)

2023–2024, Key Institutional Support Project of Renmin University of China (Core Member)

2021–2023, National Natural Science Foundation for Young Scientists (Project Principal Investigator)

2020–2022, Horizontal Project of Public Institution (Project Participant)

2018–2019, Horizontal Project of Public Institution (Project Principal Investigator)

2017–2020, New Faculty Startup Fund Project of Renmin University of China (Project Principal Investigator)

2013–2019, National Major Scientific Research Instrument Development Project (Core Member)

2021, Third Prize, Science Group A, 12th Beijing Universities Young Teachers' Teaching Basic Skills Competition (Provincial-Level)

2021, First Prize, 11th Renmin University of China Young Teachers' Teaching Basic Skills Competition (University-Level)

2021, Excellent Class Teacher, 2019–2020 Academic Year, Renmin University of China (University-Level

The Neutron Scattering Research Group plans to enroll 1-2 postgraduate students annually. Interested applicants are welcome to contact us for consultation: jcwang_phys@ruc.edu.cn

For details:

https://www.bilibili.com/video/BV1wv4y1N7yx

2024

[1] J. Wang, J. Liu, D. Xu, F. Grünauer, L. Hao, Y. Liu, H. Zhang, P. Cheng, and W. Bao, Design and Implementation of the Monochromator Shielding for the Cold Neutron Spectrometers XINGZHI and BOYA, Chin. Phys. B 33, 057801 (2024).

[2] L. Song, J. Si, T. Fennell, U. Stuhr, G. Deng, J. Wang, J. Liu, L. Hao, H. Luo, M. Liu, S. Meng, and S. Li, Strong Electron-Phonon Coupling in Ba_1-xSr_xNi₂As₂, Phys. Rev. B 109, 104518 (2024).

2023

[3] N. Zhao, J. Sheng, J. Wang, H. Ge, T. Li, J. Yang, S. Wang, P. Miao, H. He, X. Tong, W. Bao, E.-J. Guo, R. Mole, D. Yu, A. A. Podlesnyak, and L. Wu, Quasi-One-Dimensional Ising-like Antiferromagnetism in the Rare-Earth Perovskite Oxide TbScO₃, Phys. Rev. Mater. 7, 034401 (2023).

[4] F. Pan, X. Hu, J. Huang, B. Shi, J. Wang, J. Liu, H. Zhang, D. Xu, J. Qin, H. Wang, L. Hao, K. Cao, P. Cheng, and D.-X. Yao, Phys. Rev. B 107, 224423 (2023).

2022

[5] J. Liu, J. Huang, J. Sheng, J. Wang, F. Pan, H. Zhang, D. Xu, J. Qin, L. Hao, Y. Xia, H. Li, X. Tong, L. Wu, P. Cheng, and W. Bao, Antiferromagnetic Structure and Magnetic Properties of Dy₂O₂Te: An Isostructural Analog of the Rare-Earth Superconductors R₂O₂Bi, Phys. Rev. B 105, 134419 (2022).

[6] H. Chen, J. Gao, L. Chen, G. Wang, H. Li, Y. Wang, J. Liu, J. Wang, D. Geng, Q. Zhang, J. Sheng, F. Ye, T. Qian, L. Chen, H. Weng, J. Ma, and X. Chen, Topological Crystalline Insulator Candidate ErAsS with Hourglass Fermion and Magnetic-Tuned Topological Phase Transition, Adv. Mater. 34, 2110664 (2022).

[7] F. Pan, C. Tian, J. Huang, D. Xu, J. Wang, P. Cheng, J. Liu, and H. Zhang, Effects of Phosphorus Doping on the Physical Properties of Axion Insulator Candidate EuIn2As2, Chin. Phys. B 31, 057502 (2022).

[8] J. Huang, B. Shi, F. Pan, J. Wang, J. Liu, D. Xu, H. Zhang, T. Xia, and P. Cheng, Phys. Rev. Mater. 6, 094013 (2022).

2021

[9] C. Tian, F. Pan, L. Wang, D. Ye, J. Sheng, J. Wang, J. Liu, J. Huang, H. Zhang, D. Xu, J. Qin, L. Hao, Y. Xia, H. Li, X. Tong, L. Wu, J.-H. Chen, S. Jia, P. Cheng, J. Yang, and Y. Zheng, DyOCl: A Rare-Earth Based Two-Dimensional van Der Waals Material with Strong Magnetic Anisotropy, Phys. Rev. B 104, 214410 (2021).

[10] J. Liu, B. Liu, L. Yuan, B. Li, L. Xie, X. Chen, H. Zhang, D. Xu, W. Tong, J. Wang, and Y. Li, Frustrated Magnetism of the Triangular-Lattice Antiferromagnets α-CrOOH and α-CrOOD, New J. Phys. 23, 033040 (2021).

[11] J. Deng, X. Jiang, Y. Liu, W. Zhao, G. Tang, Y. Li, S. Xu, J. Wang, C. Zhu, M. Wu, J. Wang, Z. Yao, Q. Chen, X. Wang, T.-L. Xia, X. Wang, and J. Hong, Enhanced Domain Wall Conductivity in Photosensitive Ferroelectrics Sn2P2S6 with Full-Visible-Spectrum Absorption, Sci. China Mater. 65, 1049 (2021).

2020

[12] J. S. Zhang, Y. Xie, X. Q. Liu, A. Razpopov, V. Borisov, C. Wang, J. P. Sun, Y. Cui, J. C. Wang, X. Ren, H. Deng, X. Yin, Y. Ding, Y. Li, J. G. Cheng, J. Feng, R. Valentí, B. Normand, and W. Yu, Giant Pressure-Enhancement of Multiferroicity in CuBr2, Phys. Rev. Res. 2, 013144 (2020).

[13] J. Sheng, X. Li, C. Tian, J. Song, X. Li, G. Sun, T. Xia, J. Wang, J. Liu, D. Xu, H. Zhang, X. Tong, W. Luo, L. Wu, W. Bao, and P. Cheng, Evolution of Superconductivity and Antiferromagnetic Order in Ba(Fe_0.92−xCo_0.08V_x)₂As₂, Phys. Rev. B 101, 174516 (2020).

2019

[14] C.-K. Tian, C. Wang, W. Ji, J.-C. Wang, T.-L. Xia, L. Wang, J.-J. Liu, H.-X. Zhang, and P. Cheng, Domain Wall Pinning and Hard Magnetic Phase in Co-Doped Bulk Single Crystalline Fe₃GeTe₂, Phys. Rev. B 99, 184428 (2019).

2018

[15] J. Liu, J. Wang, J. Sheng, F. Ye, K. M. Taddei, J. A. Fernandez-Baca, W. Luo, G.-A. Sun, Z.-C. Wang, H. Jiang, G.-H. Cao, and W. Bao, Neutron diffraction study on magnetic structures and transitions in Sr₂Cr₃As₂O₂, Phys. Rev. B 98, 134416 (2018).

[16] J. Wang, R. S. Fishman, Y. Qiu, J. A. Fernandez-Baca, G. Ehlers, K.-C. Liang, Y. Wang, B. Lorenz, C. W. Chu, and F. Ye, Comprehensive inelastic neutron scattering study of the multiferroic Mn_1−xCo_xWO₄, Phys. Rev. B 98, 214425 (2018).

[17] F. Ye, J. Wang, J. Sheng, C. Hoffmann, T. Gu, H. J. Xiang, W. Tian, J. J. Molaison, A. M. dos Santos, M. Matsuda, B. C. Chakoumakos, J. A. Fernandez-Baca, X. Tong, B. Gao, J. W. Kim, and S.-W. Cheong, Soft antiphase tilt of oxygen octahedra in the hybrid improper multiferroic Ca₃Mn_1.9Ti_0.1O₇, Phys. Rev. B 97, 041112 (2018).

[18] G. M. Kaminsky, D. P. Belanger, F. Ye, J. A. Fernandez-Baca, J. Wang, M. Matsuda, and J.-Q. Yan, Origin of the net magnetic moment in LaCoO₃, Phys. Rev. B 97, 024418 (2018).

[19] Y. Cui, J. Dai, P. Zhou, P. S. Wang, T. R. Li, W. H. Song, J. C. Wang, L. Ma, Z. Zhang, S. Y. Li, G. M. Luke, B. Normand, T. Xiang, and W. Yu, Mermin-Wagner physics, (H,T) phase diagram, and candidate quantum spin-liquid phase in the spin-1 triangular-lattice antiferromagnet Ba₈CoNb₆O₂₄, Phys. Rev. Mater. 2, 044403 (2018).

[20] J. Liu, J. Sheng, W. Luo, J. Wang, W. Bao, J. Yang, M. Fang, and S. A. Danilkin, A single-crystal neutron diffraction study on magnetic structure of CsCo₂Se₂, Chin. Phys. B 27, 117401 (2018).

[21] X.-G. Li, J.-M. Sheng, C.-K. Tian, Y.-Y. Wang, T.-L. Xia, L. Wang, F. Ye, Wei Tian, J.-C. Wang, J.-J. Liu, H.-X. Zhang, W. Bao, and P. Cheng, Effects of vanadium doping on BaFe₂As₂, EPL 122, 67006 (2018).

2017

[22] R. Lou, Y. F. Xu, L.-X. Zhao, Z.-Q. Han, P.-J. Guo, M. Li, J.-C. Wang, B.-B. Fu, Z.-H. Liu, Y.-B. Huang, P. Richard, T. Qian, K. Liu, G.-F. Chen, H. M. Weng, H. Ding, and S.-C. Wang, Observation of Open-Orbit Fermi Surface Topology in the Extremely Large Magnetoresistance Semimetal MoAs₂, Phys. Rev. B 96, 241106 (2017).

2016

[23] Jinchen Wang, Feng Ye, Songxue Chi, Jaime A. Fernandez-Baca, Huibo Cao, Wei Tian, M. Gooch, N. Poudel, Yaqi Wang, Bernd Lorenz, and C. W. Chu, Pressure effects on magnetic ground states in cobalt doped multiferroic Mn_1−xCo_xWO₄, Phys. Rev. B 93, 155164 (2016).

[24] Jinchen Wang, Juanjuan Liu, Jieming Sheng, Wei Luo, Feng Ye, Zhiying Zhao, Xuefeng Sun, Sergey A. Danilkin, Guochu Deng, and Wei Bao, Simultaneous occurrence of multiferroism and short-range magnetic order in DyFeO₃, Phys. Rev. B 93, 140403 (2016).

[25] Juan-Juan Liu, Jin-Chen Wang, Wei Luo, Jie-Ming Sheng, Zhang-Zhen He, S. A. Danilkin, Wei Bao, A Single-Crystal Neutron Diffraction Study on Magnetic Structure of the Quasi-One-Dimensional Antiferromagnet SrCo₂V₂O₈, Chin. Phys. Lett. 33, 37502 (2016).

[26] Juanjuan Liu, Jinchen Wang, Wei Luo, Jieming Sheng, Aifeng Wang, Xianhui Chen, Sergey A Danilkin and Wei Bao, The influence of the structural transition on magnetic fluctuations in NaFeAs, J. Phys.: Condens. Matter 28, 27LT01 (2016).

[27] W. Tian, H. Cao, J. Wang, F. Ye, M. Matsuda, J.-Q. Yan, Y. Liu, V. O. Garlea, H. K. Agrawal, B. C. Chakoumakos, B. C. Sales, R. S. Fishman, and J. A. Fernandez-Baca, Spin-lattice coupling mediated multiferroicity in (ND₄)₂FeCl₅·D₂O, Phys. Rev. B 94, 214405 (2016).

[28] H. Zheng, J. Terzic, F. Ye, X. G. Wan, D. Wang, J. Wang, X. Wang, P. Schlottmann, S. J. Yuan, and G. Cao, Simultaneous metal-insulator and antiferromagnetic transitions in orthorhombic perovskite iridate Sr_0.94Ir_0.78O_2.68 single crystals, Phys. Rev. B 93, 235157 (2016).

2015

[29] J. C. Wang, S. Aswartham, Feng Ye, J. Terzic, H. Zheng, Daniel Haskel, Shalinee Chikara, Yong Choi, P. Schlottmann, Radu Custelcean, S. J. Yuan and G. Cao, Decoupling of the Antiferromagnetic and Insulating States in Tb doped Sr₂IrO₄, Phys. Rev. B 92, 214411 (2015).

[30] J. Terzic, J. C. Wang, Feng Ye, W. H. Song, S. J. Yuan, S. Aswartham, L. E. DeLong, S. V. Streltsov, D. I. Khomskii, and G. Cao, Coexisting charge and magnetic orders in the dimer-chain iridate Ba₅AlIr₂O₁₁, Phys. Rev. B 91, 235147 (2015).

[31] S. J. Yuan, J. Terzic, J. C. Wang, L. Li, S. Aswartham, W. H. Song, F. Ye, and G. Cao, Evolution of magnetism in single-crystal Ca₂Ru_1-xIr_xO₄ (0 ≤ x ≤ 0.65), Phys. Rev. B 92, 024425 (2015).

[32] Feng Ye, Xiaoping Wang, Christina Hoffmann, Jinchen Wang, Songxue Chi, Masaaki Matsuda, Bryan C. Chakoumakos, Jaime A. Fernandez-Baca, and G. Cao, Structure symmetry determination and magnetic evolution in Sr₂Ir_1-xRh_xO₄, Phys. Rev. B 92, 201112(R) (2015).

[33] N. Poudel, B. Lorenz, B. Lv, Y. Q. Wang, F. Ye, Jinchen Wang, J. A. Fernandez-baca, and C. W. Chu, Effects of Nickel Doping on the Multiferroic and Magnetic Phases of MnWO₄, Integrated Ferroelectrics 166, 17 (2015).

[34] Peng Cheng, Wei Bao, Sergey Danilkin, Tiesong Zhao, Jieming Sheng, Juanjuan Liu, Wei Luo, and Jinchen Wang, Inelastic Neutron Scattering Studies on the Crystal Field Excitations in Superconducting NdFeAsO_0.85F_0.15, Adv. Cond. Matter. Phys. 2015, 605160 (2015).

2014

[35] J. C. Wang, J. Terzic, T. F. Qi, Feng Ye, S. J. Yuan, S. Aswartham, S. V. Streltsov, D. I. Khomskii, R. K. Kaul, and G. Cao, Lattice-Tuned Magnetism of Ru⁴⁺(4d⁴) Ions in Single-Crystals of the Layered Honeycomb Ruthenates: Li₂RuO₃ and Na₂RuO₃, Phys. Rev. B 90, 161110(R) (2014).

[36] Feng Ye, Wei Bao, Song-Xue Chi, Antonio M. dos Santos, Jamie J. Molaison, Ming-Hu Fang, Hang-Dong Wang, Qian-Hui Mao, Jin-Chen Wang, Juan-Juan Liu, and Jie-Ming Sheng, High-pressure single-crystal neutron scattering study of magnetic and Fe vacancy orders in (Tl,Rb)₂Fe₄Se₅ superconductor, Chin. Phys. Lett. 31, 127401 (2014).