姓 名: | 张振宇 | |
地 址: | 安徽省合肥市中国科学技术大学 | |
微尺度物质科学国家研究中心物质B楼B0905 | ||
邮 编: | 230026 | |
电 话: | 0551-63606725 | |
电 邮: | zhangzy@ustc.edu.cn |
教育与科研经历 |
2018.01 - 至今 | 中国科学技术大学,合肥微尺度物质科学国家研究中心,杰出讲席教授 |
2011.01 - 2017.12 | 中国科学技术大学,合肥微尺度物质科学国家研究中心,讲席教授 |
2011.09 - 2012.06 | 美国哈佛大学,工程与应用科学学院,客座教授 |
2008.07 - 至今 | 中国科学技术大学,合肥微尺度物质科学国家研究中心,国际功能材料量子设计中心共同创始主任 |
2007.01 - 2008.06 | 美国田纳西大学与橡树岭国家实验室,先进材料联合研究所,讲席教授 |
1997.08 - 2011.06 | 美国田纳西大学,物理与天文系,教授 |
1995.04 - 2010.12 | 美国橡树岭国家实验室,历任研究员II级至杰出研究员 |
1993.02 - 1995.03 | 美国威斯康星-麦迪逊大学,材料科学与工程系,助理研究员至副研究员 |
1988.10 - 1993.01 | 美国加州大学圣芭芭拉分校,化学系与国家科学基金会量子化电子结构科技中心(QUEST),博士后 |
1982.09 - 1988.09 | 美国罗格斯大学,物理与天文系,博士(CUSPEA项目) |
1978.02 - 1982.01 | 武汉大学,物理系,学士 |
目前研究方向 |
凝聚态物理理论、计算与模拟研究:采用多尺度方法研究低维体系与量子材料的非平衡生长过程、物性及其在信息与能源领域中的潜在应用。近期的研究重心包括层状材料、界面超导、拓扑超导、量子反常霍尔效应、拓扑催化、量子等离激元等。 |
代表性论文 (科大部分) |
1. | W. J. Ding, J. Zeng, W. Qin, P. Cui, and Z. Y. Zhang, Phys. Rev. Lett. 124, 027002 (2020). “Exploring high transition temperature superconductivity in a freestanding or SrTiO3-supported CoSb monolayer.” |
2. | H. H. Shi, Z. Zhan, Z. K. Qi, K. X. Huang, E. van Veen, J. A. Silva-Guillén, R. X. Zhang, P. J. Li, K. Xie, H. X. Ji, M. Katsnelson, S. J. Yuan, S. Y. Qin, and Z. Y. Zhang, Nat. Commun. 11, 371 (2020). “Large-area, periodic, and tunable intrinsic pseudo-magnetic fields in low-angle twisted bilayer graphene.” |
3. | W. Qin, L. Q. Li, and Z. Y. Zhang, Nat. Phys. 15, 796 (2019). “Chiral topological superconductivity arising from the interplay of geometric phase and electron correlation.” |
4. | H. X. Zong, H. J. Wu, X. F. Tao, D. Q. Xue, J. Sun, S. J. Pennycook, T. Min, Z. Y. Zhang, and X. D. Ding, Phys. Rev. Lett. 123, 015701 (2019). “Percolated Strain Networks and Universal Scaling Properties of Strain Glasses.” |
5. | G. Chen, Y. Luo, H. Y. Gao, J. Jiang, Y. J. Yu, L. Zhang, Y. Zhang, X. G. Li, Z. Y. Zhang, and Z. C. Dong, Phys. Rev. Lett. 122, 177401 (2019). “Spin-Triplet-Mediated Up-Conversion and Crossover Behavior in Single-Molecule Electroluminescence.” |
6. | H. B. Shen, Q. Gao, Y. B. Zhang, Y. Lin, Q. L. Lin, Z. H. Li, L. Chen, Z. P. Zeng, X. G. Li, Y. Jia, S. J. Wang, Z. L. Du, L. S. Li, and Z. Y. Zhang, Nat. Photon. 13, 192 (2019). “Visible Quantum Dot Light-Emitting Diodes with Simultaneous High Brightness and Efficiency.” |
7. | S. Y. Zhang, T. Wei, J. Q. Guan, Q. Zhu, W. Qin, W. H. Wang, J. D. Zhang, E. W. Plummer, X. T. Zhu, Z. Y. Zhang, and J. D. Guo, Phys. Rev. Lett. 122, 066802 (2019). “Enhanced superconducting state in FeSe/SrTiO3 by a dynamic interfacial polaron mechanism.” |
8. | Z. Y. Lin, J. H. Choi, Q. Zhang, W. Qin, S. H. Yi, P. D. Wang, L. Li, Y. F. Wang, H. Zhang, Z. Sun, L. M. Wei, S. B. Zhang, T. F. Guo, Q. Y. Lu, J. H. Cho, C. G. Zeng, and Z. Y. Zhang, Phys. Rev. Lett. 121, 096401 (2018). “Flatbands and emergent ferromagnetic ordering in Fe3Sn2 kagome lattices.” |
9. | S. J. Ding, X. G. Li, F. Nan, Y. T. Zhong, L. Zhou, X. D. Xiao, Q. Q. Wang, and Z. Y. Zhang, Phys. Rev. Lett. 119, 177401 (2017). “Strongly asymmetric spectroscopy in plasmon-exciton hybrid systems due to interference-induced energy repartitioning.” |
10. | G. H. Cheng, W. Qin, M.H. Lin, L. M. Wei, X. D. Fan, H. Y. Zhang, S. Gwo, C. G. Zeng, J. G. Hou, and Z. Y. Zhang, Phys. Rev. Lett. 119, 156803 (2017). “Substantially enhancing quantum coherence of electrons in graphene via electron-plasmon coupling.” |
11. | Z. L. Zhu, X. L. Cai, S. H. Yi, J. L. Chen, Y. W. Dai, C. Y. Niu, Z. X. Guo, M. H. Xie, F. Liu, J. H. Cho, Y. Jia, and Z. Y. Zhang, Phys. Rev. Lett. 119, 106101 (2017). “Multivalency-driven formation of Te-based monolayer materials: A combined first-principles and experimental study.” |
12. | B. Fu, W. Zhu, Q. W. Shi, Q. X. Li, J. L. Yang, and Z. Y. Zhang, Phys. Rev. Lett. 118, 146401 (2017). “Accurate determination of the quasiparticle and scaling properties surrounding the quantum critical point of disordered three-dimensional Dirac semimetals.” |
13. | Y. X. Chen, P. Cui, X. B. Ren, C. D. Zhang, C. H. Jin, Z. Y. Zhang, and C. K. Shih, Nat. Commun. 8, 15135 (2017). “Fabrication of MoSe2 nanoribbons via an unusual morphological phase transition.” |
14. | W. J. Ding, J. B. Zhu, Z. Wang, Y. F. Gao, D. Xiao, Y. Gu, Z. Y. Zhang, and W. G. Zhu, Nat. Commun. 8, 15135 (2017). “Prediction of intrinsic two-dimensional ferroelectrics in In2Se3 and other III2-VI3 van der Waals materials.” |
15. | J. Zeng, P. Cui, and Z. Y. Zhang, Phys. Rev. Lett. 118, 046101 (2017). “Half layer by half layer growth of a blue phosphorene monolayer on a GaN(001) substrate.” |
16. | R. H. Li, H. Ma, X. Y. Cheng, S. L. Wang, D. Z. Li, Z. Y. Zhang, Y. Y. Li, and X. Q. Chen, Phys. Rev. Lett. 117, 096401 (2016). “Dirac node lines in pure alkali earth metals.” |
17. | S. F. Qi, Z. H. Qiao, X. Z. Deng, E. D. Cubuk, H. Chen, W. G. Zhu, E. Kaxiras, S. B. Zhang, X. H. Xu, and Z. Y. Zhang, Phys. Rev. Lett. 117, 056804 (2016). “High-temperature quantum anomalous Hall effect in n−p codoped topological insulators.” |
18. | P. Cui, Q. Zhang, H. B. Zhu, X. X. Li, W. Y. Wang, Q. X. Li, C. G. Zeng, and Z. Y. Zhang, Phys. Rev. Lett. 116, 026802 (2016). “Carbon tetragons as definitive spin switches in narrow zigzag graphene nanoribbons.” |
19. | J. H. Choi, P. Cui, H. P. Lan, and Z. Y. Zhang, Phys. Rev. Lett. 115, 066403 (2015). “Linear scaling of the exciton binding energy versus the band gap of two-dimensional materials.” |
20. | P. Wu, Y. Zhang, P. Cui, Z. Y. Li, J. L. Yang, and Z. Y. Zhang, Phys. Rev. Lett. 114, 216102 (2015). “Carbon dimers as the dominant feeding species in epitaxial growth and morphological phase transition of graphene on different Cu substrates.” |
21. | W. Qin, and Z. Y. Zhang, Phys. Rev. Lett., 113, 266806 (2014). “Persistent Ferromagnetism and Topological Phase Transition at the Interface of a Superconductor and a Topological Insulator.” |
22. | H. Zhang, F. F. Ming, H. J. Kim, H. B. Zhu, Q. Zhang, H. H. Weitering, X. D. Xiao, C. G. Zeng, J. H. Cho, and Z. Y. Zhang, Phys. Rev. Lett. 113, 196802(2014). “Stabilization and Manipulation of Electronically Phase-Separated Ground States in Defective Indium Atom Wires on Silicon.” |
23. | Z. H. Qiao, W. Ren, H. Chen, L. Bellaiche, Z. Y. Zhang, A. H. MacDonald, and Q. Niu, Phys. Rev. Lett. 112, 116404 (2014). “Quantum anomalous Hall effect in graphene proximity coupled to an antiferromagnetic insulator.” |
24. | M. C. Nguyen, J. H. Choi, X. Zhao, C. Z. Wang, Z. Y. Zhang, K. M. Ho, Phys. Rev. Lett. 111, 165502 (2013). “New layered structures of cuprous chalcogenides as thin film solar cell materials: Cu2Te and Cu2Se.” |
25. | S. F. Li, X. J. Zhao, X. S. Xu, Y. F. Gao, Z. Y. Zhang, Phys. Rev. Lett. 111, 115501 (2013). “Stacking principle and magic sizes of transition metal nanoclusters based on generalized Wulff construction.” |
26. | W. Chen, H. Chen, H. P. Lan, P. Cui, T. P. Schulze, W. G. Zhu, Z. Y. Zhang, Phys. Rev. Lett. 109, 265507 (2012). “Suppression of Grain Boundaries in Graphene Growth on Superstructured Mn-Cu(111) Surface.” |
27. | H. Chen, W. G. Zhu, D. Xiao, Z. Y. Zhang, Phys. Rev. Lett. 107, 056804 (2011). “CO Oxidation Facilitated by Robust Surface States on Au-Covered Topological Insulators.” |
28. | K. H. Bevan, W. G. Zhu, H. Guo, Z. Y. Zhang, Phys. Rev. Lett. 106, 156404 (2011). “Terminating Surface Electromigration at the Source.” |
29. | H. Zhang, J. H. Choi, Y. Xu, X. X. Wang, X. F. Zhai, B. Wang, C. G. Zeng, J.-H. Cho, Z. Y. Zhang, J. G. Hou, Phys. Rev. Lett. 106 026801 (2011). “Atomic Structure, Energetics, and Dynamics of Topological Solitons in Indium Chains on Si(111) Surfaces.” |
30. | D. Xiao, Y. Yao, W. Feng, J. Weng, W. Zhu, X. Chen, G. M. Stocks, and Z.Y. Zhang, Phys. Rev. Lett. 105, 096404 (2010). “Half-Heusler Compounds as a New Class of Three-Dimensional Topological Insulators.” |
31. | Y. Jia, B. A. Wu, C. Li, T. L. Einstein, H. H. Weitering, and Z. Y. Zhang, Phys. Rev. Lett. 105, 066101 (2010). “Strong Quantum Size Effects in Pb(111) Thin Films Mediated by Anomalous Friedel Oscillations.” |
32. | H. Chen, W. G. Zhu and Z. Y. Zhang, Phys. Rev. Lett. 104, 186101 (2010). “Contrasting Behavior of Carbon Nucleation in the Initial Stages of Graphene Epitaxial Growth on Stepped Metal Surfaces.” |