Prof. Xiang Li

Post

· Professor, Doctor Supervisor in Materials Science and Engineering, Biomedical chemistry and Sensing

Academic careers and Employments

· 2007-2010：Doctor’s degree of Materials Processing Engineering, Tongji University

· 2010-2011: Postdoc Appointee, Assistant Professor, Center for Geo-environment Science, Faculty of Engineering and Resource Science, Akita University, Japan

· 2011-2015: Lecturer, School of Materials Science and Engineering, University of Shanghai for Science and Technology

· 2015-2022: Associate Professor, School of Materials Science and Engineering, University of Shanghai for Science and Technology

· 2022-: Professor, School of Materials and Chemistry, University of Shanghai for Science and Technology

Research interests

· Functional magnetic nanomaterials

· Biomedical nanomaterials and their applications

· Electromagnetic wave absorbing materials and their applications

Important research and development projects

· Study and quantitative analysis of dynamic evolution mechanism of two kinds of hot vortex domains by magnetic force microscopy, National Natural Science Foundation of China, 2021-2024

· Alternating magnetic imaging of single magnetic nanoparticles with small scale by new magnetic force microscope, National Natural Science Foundation of China, 2013-2015

· Studies on the dynamics of small scale domain structures, magnetic vortices and magnetic skyrmions, Natural Science Foundation of Shanghai, 2017-2020

Important papers and publications

(1) Sea-urchin-like NiCo₂S₄ modified MXene hybrids with enhanced microwave absorption performance, Chemical Engineering Journal, 454: 140127, 2023.

(2) Propagation of Spin Waves in a 2D Vortex Network, Nano Letters, 21(11): 4708-4714, 2021.

(3) Construction of 1D Vortex Chain Using a Chiral Nanostructure, Advanced Science, 2001040: 1-8, 2020.

(4) Biconical Prisms Ni@C Composites Derived from Metal-organic Frameworks with an Enhanced Electromagnetic Wave Absorption, Carbon, 184: 115-126, 2021.

(5) Improved synergistic effect for achieving ultrathin microwave absorber of 1D Co nanochains/2D carbide MXene nanocomposite, Carbon 172: 506-515, 2021.

(6) Enhanced electromagnetic wave absorption of layered FeCo@carbon nanocomposites with a low filler loading, Journal of Alloys and Compounds, 879: 160465, 2021.

(7) Fe@NPC@CF nanocomposites derived from Fe-MOFs/biomass cotton for lightweight and high-performance electromagnetic wave absorption applications, Journal of Alloys and Compounds, 819: 152952, 2020.

(8) Enhanced electromagnetic wave absorption of olive-like Fe₃O₄/Fe@C core-shell nanocomposite in Ku band, Journal of Alloys and Compounds, 821: 153275, 2020.

(9) Pinning-dependent vortex wall oscillations in a one dimensional NiFe nanowire, Applied Physics Letters, 111, 162403, 2017.

(10) Dynamic nanomagnetism characterization of individual magnetic nanoparticles by frequency-modulated magnetic force microscopy, Applied Physics Letters, 104, 213106, 2014.

Important patents and proprietary rights

· The utility model relates to a probe force measuring device (ZL202021069665.5)

· Medical probe force measuring pen (ZL202030521024.8)

· Magnetic field bin with loading platform (ZL 202130856366. X)

· Amorphous nanocrystalline soft magnetic alloy and the preparation method (ZL 201210508847.1)

Contact me

· E-mail: xiangli@usst.edu.cn