XU Xing-Liang
Brief Education and Work Background
Saga University of Japan, Doctor of Condensed Matter Physics, Apr. 2014-Mar. 2017
Zhejiang University of Science and Technology, Department of Applied Physics (Master Tutor), Jun. 2023-Present
Email: xlxu@zust.edu.cn
Main Research Interests
1. Muon spin relaxation/rotation, magnetism of strongly correlated systems.
2. Magneto-electric couplings.
3. Multiferroics and Ferroelectrics.
Main Research Projects
1. The National Natural Science Foundation of China (No. 12304131), Jan 2024-Dec 2026.
2. The National Natural Science Foundation of China (No. 11847025), Jan 2019-Dec 2019.
3. The Natural Science Foundation of Zhejiang Province (NO. LQ19A040001), Jan 2019-Dec 2021.
4. The Special Fund Project of Zhejiang University of Science and Technology’s Basic Scientific Research Business Expenses in 2023 (NO. 2023JLYB007), Jan 2023-Dec 2024.
Main Published Papers
Published 20 papers (19 SCI) as the first author and corresponding author. (Portion)
[1] Xing-Liang Xu, Recent progress of multiferroicity and magnetoelectric coupling effect in ABX3-type perovskite metal−organic frameworks, Advanced Materials Interfaces, 10, 2300123, (2023). (JCR Q2, IF=5.4).
[2] Xing-Liang Xu, Dandelion-Like CuCo2O4@NiMn LDH Core/Shell Nanoflowers for Excellent Battery-Type Supercapacitor. Nanomaterials 13(4), 730 (2023). (JCR Q1, IF=5.3).
[3] Xing-Liang Xu, Roles of oxygen vacancy and ferroelectric polarization in photovoltaic effects of BiFeO3 based devices, Solid State Communications 360, 115042 (2023). (JCR Q3, IF=2.1).
[4] Xing-Liang Xu, Enhanced Multiferroic Properties in Er and Mn Co‑Doped BiFeO3 Nanoparticles, Journal of Superconductivity and Novel Magnetism 35, 1961 (2022). (JCR Q3, IF=1.8).
[5] Xing-Liang Xu, Raman spectroscopic study of frustrated ferroelectric phase in hydroxyl salts Co2(OH)3Br/Co2(OD)3Br, Journal of Physics: Condensed Matter 33, 275401 (2021). (JCR Q3, IF=2.7).
[6] Xing-Liang Xu, Hydrogen/Deuterium Dynamics in Hydroxyl Salts Co2(OH)3Br/Co2(OD)3Br Revealed by Muon Spin Relaxation, Materials 12, 2135 (2019). (JCR Q2, IF=3.4).
[7] Xing-Liang Xu, Critical slowing of quantum atomic deuterium/hydrogen with features of multiferroicity in the geometrically frustrated system Co2(OD)3Cl/Co2(OH)3Cl, Physical Review B 95, 024111 (2017). (JCR Q1, TOP, IF=3.7).