Personal Biography

I am a physicist working in the field of topological materials and unconventional superconductivity. My research investigates emergent electronic phenomena in kagome superconductors, topological semimetals, and related systems, primarily through dilution-refrigerator-based quantum transport measurements. I have published as first, co-first, or corresponding author in journals such as Nature Communications, Physical Review Letters, and Advances in Physics: X. My 2020 PRL was selected as an Editors’ Suggestion and highlighted by Physics, and my review article has been cited more than 200 times.

I have received the Peking University Presidential Scholarship, served as PI of an NSFC Young Scientists Fund project, and contributed to NSFC Major Research Plan programs. My work aims to uncover unconventional superconducting states and symmetry-breaking electronic orders in quantum materials through quantum transport experiments.

Education Background

2014.09-2019.07, Ph.D. in Physics, Peking University

2010.09-2014.07, B.S. in Physics, Shandong Normal University

Working Experience

2025.03- present, Research Fellow, Shenzhen International Quantum Academy

2019.07- 2025.02, Assistant Research Fellow, Southern University of Science and Technology

Papers and Patents

1. S. Wang^#, X. Feng^#, J.-Z. Fang^#, J.-P. Peng, Z.-T. Sun, J.-J. Yang, L. Xiong, J. Liu, J.-J. Zhao, J.-K. Wang, X.-J. Liu, Z.-N. Wu, S. Sun, N. Kang, X.-S. Wu, Z. Zhang, X. Fu, K. T. Law*, B.-C. Lin*, D. Yu*, Unconventional hysteresis due to time-reversal symmetry breaking superconductivity in RbV₃Sb₅. Nature Communications, accepted (2025) (arXiv:2405.12592).

2. S. Wang^#, J.-Z. Fang^#, Z.-N. Wu^#, S. Lu, Z. Wei, Z. Wang, W. Huang, Y. Yao, J.-J. Yang, T. Chen, B.-C. Lin*, D. Yu, Two-fold symmetric superconductivity in the Kagome superconductor RbV₃Sb₅. Commun. Phys. 7, 15 (2024).

3. B.-C. Lin^#, S. Wang^#, A.-Q. Wang, Y. Li, R.-R. Li, K. Xia, D. Yu, Z.-M. Liao*, Electric Control of Fermi Arc Spin Transport in Individual Topological Semimetal Nanowires. Phys. Rev. Lett. 124, 116802 (2020).

4. B.-C. Lin^#, S. Wang^#, S. Wiedmann, J.-M. Lu, W.-Z. Zheng, D. Yu, Z.-M. Liao*, Observation of an Odd-Integer Quantum Hall Effect from Topological Surface States in Cd₃As₂. Phys. Rev. Lett. 122, 036602 (2019).

5. S. Wang^#, B.-C. Lin^#, W.-Z. Zheng, D. Yu, Z.-M. Liao*, Fano Interference between Bulk and Surface States of a Dirac Semimetal Cd₃As₂ Nanowire. Phys. Rev. Lett. 120, 257701 (2018).

6. S. Wang^#, B.-C. Lin^#, A.-Q. Wang, D.-P. Yu, Z.-M. Liao*, Quantum transport in Dirac and Weyl semimetals: a review. Advances in Physics: X 2, 518–544 (2017).

7. J.-Z. Fang^#, H.-N. Cui^#, S. Wang^#, J.-D. Lu^#, G.-Y. Zhu, X.-J. Liu, M.-S. Qin, J.-K. Wang, Z.-N. Wu, Y.-F. Wu, S.-G. Wang, Z.-S. Zhang, Z. Wei*, J. Zhang*, B.-C. Lin*, Z.-M. Liao*, D. Yu, Exchange bias in the van der Waals heterostructure Mn Bi₂Te₄/Cr₂Ge₂Te₆. Phys. Rev. B 107, L041107 (2023).

8. J.-Z. Fang^#, S. Wang^#, X.-G. Ye^#, B.-C. Lin*, A.-Q. Wang, H.-N. Cui, J.-K. Wang, G.-Y. Zhu, S. Liu, Y. Li, Z. Wang, Y. Yao, Z. Wei*, D. Yu, Z.-M. Liao*, Intermediate anomalous Hall states induced by noncollinear spin structure in the magnetic topological insulator Mn Bi₂Te₄. Phys. Rev. B 104, 054409 (2021).

9. B.-C. Lin^#, S. Wang^#, L.-X. Wang, C.-Z. Li, J.-G. Li, D. Yu, Z.-M. Liao*, Gate-tuned Aharonov-Bohm interference of surface states in a quasiballistic Dirac semimetal nanowire. Physical Review B 95, 235436 (2017).

10. H.-N. Cui, G.-Y. Zhu, J.-K. Wang, J.-J. Yang, W.-Z. Zheng, B.-C. Lin*, Z.-M. Liao*, S. Wang*, D.-P. Yu, Negative magnetoresistance in Dirac semimetal Cd₃As₂ with in-plane magnetic field perpendicular to current. Chinese Phys. B 32, 077305 (2023).

11. S. Wang, Z.-M. Liao, B.-C. Lin, J.-Z Fang, D. Yu, 2021, Programmable Multi-Quantum-State Memory and Its Fabrication Method, ZL 202110787366.8, China.

12. Z.-M. Liao, S. Wang, B.-C. Lin, D. Yu, 2019, A Topological Field-Effect Transistor and Its Implementation Method，ZL201910299136X, China.