Fanhao Jia

Using density functional theory and quantum many-body perturbation methods to accurately predict the lattice structure, electronic structure, magnetic structure, optical properties, and excited state properties of materials. 

(1) 2016/09 - 2021/06, Shanghai University，Doctor

(2) 2012/09 - 2016/06, Zhejiang Normal University，Bachelor

(1) 2023/10 - present, Hangzhou Dianzi University, Associate Professor

(2) 2021/07 - 2023/10, Shanghai University，Post-Doc

Visiting Experience:

(1) 2019/11 - 2021/5, University at Buffalo, SUNY, visit and cooperate with Prof. Peihong Zhang to do GW+BSE

(2) 2018/3 - 2018/8, Hong Kong University, Research assistant, work with Prof. Jian Wang on machine learning of material science

(3) 2017/11 - 2018/1, University of Vienna, visit and cooperate with Prof. Cesare Franchini and Prof. Georg Kresse

Density functional theory, GW approximation; Ferroelectric, Piezoelectric, Multiferroic, Two-dimensional material, Exciton

Zhejiang Provincial Natural Science Foundation (QN25A040026) 

[1] F. Jia, Z. Tang, G. J. Cruz, W. Gao, S. Xu, W. Ren*, and P. Zhang*, Quasiparticle and Excitonic Structures of Few-layer and Bulk GaSe: Interlayer Coupling, Self-energy, and Electron-hole Interaction, Phys. Rev. Appl., 2024, 21, 054019

[2] S. Xu, F. Jia*, and N. Dai*, Even-Odd Layer-Dependent Multiferroic in Freestanding Rare-earth Orthorhombic Perovskite, Sci China-Phys Mech., 2024, 66

[3] X. Cheng, S. Xu, C. Liu, Y. Cui, W. Ouyang, F. Jia*, W. Wu and W. Ren*, Ferroelectric and negative piezoelectric properties in oxyhydroxide monolayers γ-XOOH (X = Al, Ga, and In). Appl. Phys. Lett.2023, 123, 072904

[4] S. Xu, F. Jia*, X. Yu*, S. Hu, H. Gao*, and W. Ren, Intrinsic Multiferroic MnOF Monolayer with Room-Temperature Ferromagnetism. Mater. Today Phys., 2022, 100775.

[5] S. Xu, F. Jia*, X. Cheng, and W. Ren*, Predicting Intrinsic Antiferromagnetic and Ferroelastic MnF₄ Monolayer with Controllable Magnetization. J. Mater. Chem. C, 2021, 9(47): 17152-17157.

[6] S. Xu†, F. Jia†, S. Hu, A. Sundaresan, N. V Ter-Oganessian, A. P Pyatakov, J. Cheng, J. Zhang, S. Cao, and W. Ren*, Predicting the Structural, Electronic and Magnetic Properties of Few Atomic-Layer Polar Perovskite. Phys. Chem. Chem. Phys., 2021, 23, 5578-5582.

[7] F. Jia, S. Hu*, S. Xu, H. Gao, G. Zhao, P. Barone, A. Stroppa*, and W. Ren*, Persistent Spin-Texture and Ferroelectric Polarization in 2D Hybrid Perovskite Benzylammonium Lead-halide. J. Phys. Chem. Lett., 2020, 11(13): 5177-5183.

[8] F. Jia, S. Xu, G. Zhao, C. Liu, and W. Ren*, Structural and Electronic Properties of Two-dimensional Freestanding BaTiO₃/SrTiO₃ Heterostructures. Phys. Rev. B, 2020, 101(14): 144106.

[9] F. Jia, G. Kresse, C. Franchini, P. Liu, J. Wang, A. Stroppa*, and W. Ren*, Cubic and Tetragonal Perovskites from The Random Phase Approximation. Phys. Rev. Mater., 2019, 3(10): 103801.

[10] T. Hu, F. Jia, G. Zhao, J. Wu, A. Stroppa, and W. Ren*, Intrinsic and Anisotropic Rashba Spin Splitting in Janus Transition-metal Dichalcogenide Monolayers. Phys. Rev. B, 2018, 97(23): 235404.

Zhejiang Provincial Natural Science Foundation (QN25A040026)