张东,男,博士,研究员,博士生导师
2005年毕业于电子科技大学,获微电子科学与技术工学学士学位。2014年毕业于中国科学院大学,师从常凯院士,获凝聚态物理理学博士学位。2014年进入中国科学院半导体研究所半导体超晶格国家重点实验室工作至今。中国科学院青年创新促进会会员,现任《Science China Physics, Mechanics & Astronomy》青年编委。
主要从事低维半导体及人工极性界面物理理论研究。与合作者提出人工极性界面调控主流半导体拓扑相变理论方案,被《Review of Modern Physics》评价为“实现拓扑相变四大方案之一”;率先预言多种拓扑非平庸电子结构共存体系,相关工作获IOP旗下期刊中国学者高被引奖,居物理类前1%,被《National Science Review》追踪报道;预言低维钙钛矿材料中高温激子玻色-爱因斯坦凝聚动态涡旋,受《Physics World》头条报道;发展基于第一性原理的亚微米尺度斯格明子模拟计算方法,提出新型自旋拓扑织构。多次在国内外会议做邀请报告,发表SCI论文40余篇,他引2000余次,H指数21(Web of Science)。
主要研究领域方向:
低维半导体及人工极性界面新奇物性与调控、人工智能在凝聚态物理中应用与原理
联系方式:
E-mail: zhangdong@semi.ac.cn; 电话:010-82304851
在研/完成项目:
金属卤化物钙钛矿极性与自旋轨道耦合的理论研究,基金委面上基金, 项目负责人
界面调控常规半导体拓扑绝缘体相变,基金委青年基金, 项目负责人
新型二维异质结结构中电子自旋特性的调控,基金委重点项目,研究骨干
低维固态极性结构中量子态调控及其原型器件研究,国家重点研发计划,研究骨干
新奇二维材料原型器件研究,国家重点研发计划,研究骨干
半导体微结构新奇物性研究,中国科学院前沿科学重点研究项目,研究骨干
代表性论文或著作:
1. Y Lu, D Zhang*, K Chang*, Monolayer Bismuth Ferrite: Topological Antiferromagnetic Metal with Bimeron Spin Textures, Chinese Physics Letters 42 (5), 057402 (2025) (Express Letter)
2. Liu X*, Zhang D*, Deng Y, et al. Tunable spin textures in a kagome antiferromagnetic semimetal via symmetry design. ACS nano, 2023, 18(1): 1013-1021.
3. Liu X+, Feng Q+, Zhang D+, et al. Topological Spin Textures in a Non‐Collinear Antiferromagnet System. Advanced Materials, 2023, 35(26): 2211634.
4. Ren Y, Lu Y, Zhang D*. Enhanced hydrogen storage capacity in two-dimensional fullerene networks. The Journal of Physical Chemistry Letters, 2023, 14(49): 11051-11057.
5. Yu, S. B., Sun, S. H., Zhou, M., Zhang, D.*, & Chang, K*. (2023). Current-induced spin polarization in Janus WSSe monolayer. Physical Review B, 107(12), 125426.
6. Yu, S. B., Zhou, M., Zhang, D.*, & Chang, K.* (2021). Spin Hall effect in the monolayer Janus compound MoSSe enhanced by Rashba spin-orbit coupling. Physical Review B, 104(7), 075435.
7. Shi, L. K., Zhang, D., Chang, K., & Song, J. C. (2021). Geometric photon-drag effect and nonlinear shift current in centrosymmetric crystals. Physical Review Letters, 126(19), 197402.
8. Chen Y, Zhang D*, Chang K*. Exciton vortices in two-dimensional hybrid perovskite monolayers. Chinese Physics Letters, 2020, 37(11): 117102. (Express Letter)
9. Zhang D*, Xiong Q, Chang K*. B5N5 monolayer: a room-temperature light element antiferromagnetic insulator. Nanoscale Advances, 2020, 2(10): 4421-4426. (Cover)
10. Dong, Zhang, Lou Wen-Kai, and Chang Kai*. "Theoretical progress of polarized interfaces in semiconductors." ACTA PHYSICA SINICA 68.16 (2019).
11. Zhang, R., Wei, B., Zhang, D., Zhu, J. J., & Chang, K. (2019). Few-shot machine learning in the three-dimensional Ising model. Physical Review B, 99(9), 094427.
12. Sun, J. P., Zhang, D.*, & Chang, K.*(2017). Coexistence of topological nodal lines, Weyl points, and triply degenerate points in TaS. Physical Review B, 96(4), 045121.
13. Sun, J. P., Zhang, D.* & Chang, K. *(2017). Molybdenum carbide: a stable topological semimetal with line nodes and triply degenerate points. Chinese Physics Letters, 34(2), 027102. (Express Letter)
14. Zhang, D., Zhang, D. B., Yang, F., Lin, H. Q., Xu, H., & Chang, K. (2015). Interface engineering of electronic properties of graphene/boron nitride lateral heterostructures. 2D Materials, 2(4), 041001.
15. Li, Y. M., Li, J., Shi, L. K., Zhang, D., Yang, W., & Chang, K. (2015). Light-induced exciton spin Hall effect in van der Waals heterostructures. Physical Review Letters, 115(16), 166804.
16. Zhang, D., Lou, W., Miao, M., Zhang, S. C., & Chang, K. (2013). Interface-induced topological insulator transition in GaAs/Ge/GaAs quantum wells. Physical Review Letters, 111(15), 156402.