个人简介

张丙文，男，7003全讯白菜网址，副研究员

邮箱：bwzhang@mju.edu.cn

研究方向：二维磁性自旋电子学、谷电子学、铁电、多铁等领域的计算和理论研究。主要使用第一性原理计算、微磁模拟、机器学习、构建有效哈密顿模型等方法。

教育经历

2006.09-2010.06  济南大学  物理学专业   本科

2011.09-2014.06  兰州理工大学  凝聚态物理专业   硕士

2015.09-2019.06  南京大学   凝聚态物理专业   博士

2019.11-2020.10  中科院物理所  磁学重点实验室M05组  访问学者       

2020.11-2021.10  中科院宁波材料所 磁材课题组  访问学者

主要参与的项目

1、主持福建省基金一项，项目名称：基于柔性自旋电子器件的二维材料挠曲磁性调控研究，项目编号：2021J011041，主持。

2、主持国家自然基金一项，项目名称：挠曲结构的切向梯度应变对铁磁二维材料的磁性调控，项目编号：52101225，主持。

主要成果

1. Bingwen Zhang, et al. Tunable valley polarization and magnetic coupling by ferroelectric substrate in a VSe2/AgBiP2Se6 heterostructure, Phys. Rev. Appl. 22, 054064 (2024)

2. Yingzhi Ye, et al., Bingwen Zhang*, First-principles study on the photocatalytic field of two-dimensional Janus BiSY (Y = I, Br, Cl) monolayers, J. Mater. Chem. A, 11, 26442 (2023).

3. Ri, He, Bingwen Zhang, et al., Ultrafast switching dynamics of the ferroelectric order in stacking-engineered ferroelectrics, Acta Materialia 262, 119416 (2024). (共同一作)

4. Bingwen Zhang, et al. Anomalous valley Hall effect induced by sublattice symmetry breaking in ABX3 honeycomb kagomé lattice, Phys. Rev. B, 108, 045146 (2023).

5. Bingwen Zhang, et al., Spin direction tunable topological transition in two-dimensional frustrate antiferromagnetic triangular lattice T-FeO2 monolayer, Appl. Phys. Lett., 121, 232405 (2022).

6. Bingwen Zhang, et al. Quantum anomalous Hall effect in M2X3 honeycomb Kagome lattice, J. Phys.: Condens. Matter, 34, 475702 (2022).

7. Bingwen Zhang, et al. Multiple Dirac states in two-dimensional topological half-metallicCrB2C2, Appl. Phys. Lett., 119, 162401 (2021).

8. Bingwen Zhang, et al. Tunable two dimensional ferromagnetic topological half-metal CrO2 by electronic correction and spin direction, Appl. Phys. Lett., 117, 222407 (2020)

9. Bingwen Zhang, et al. Multiple robust Dirac states in hexagonal lattice induced by p-d electron-counting rule and bilayer stacking, Phys. Rev. B, 102, 165404 (2020).

10. Bingwen Zhang, et al. Two-dimensional stable Mn based half metal and antiferromagnets promising for spintronics. Nanoscale, 12, 12490 (2020).

11. Hang Li, Bingwen Zhang, et al. Large anomalous Hall effect in a hexagonal ferromagnetic Fe5Sn3 single crystal. Phys. Rev. B, 101, 140409(R) (2020).