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Personal Information

Licong Peng
licong.peng@pku.edu.cn
Chinese, English
Beijing

Academic Information

Peking University
Materials Science and Engineering
  • 2013-2018 PhD in Condensed Matter Physics: Institute of Physics, Chinese Academy of Sciences
  • 2009-2013 Bachelor in Applied Physics: College of Science, Minzu University of China
  • 2023.03–Present, Peking University, School of Materials Science and Engineering, Assistant Professor, Distinguished Research Fellow, Doctoral Supervisor
  • 2021.04–2023.02, RIKEN, Japan, Special Postdoctoral Researcher
  • 2018.07–2021.03, RIKEN, Japan, Postdoctoral Researcher
  • 2017.08–2017.09, Ames Laboratory, USA, Visiting Scholar
  • 2022: National Overseas High-level Young Talents Program
  • 2021: RIKEN CEMS Award
  • 2021: RIKEN Meifeng Award
  • 2021: RIKEN Basic Science Special Researcher Program
  • 2020: RIKEN FY2020 Motivational Research Project
  • 2018: Beijing Outstanding PhD Graduate
  • 2018: University of Chinese Academy of Sciences Outstanding PhD Graduate
  • 2017: PhD Student National Scholarship

Research

Topological magnetic materials and principle devices
Spintronics devices
Lorentz transmission electron microscopy
Micromagnetics simulation
Topological magnetic materials, two-dimensional materials, nanomaterials, heterostructure thin films, superconducting materials
  • Formation and Control of Zero-Field Antiskyrmions in Confining Geometries, L. C. Peng, 2022
  • Room-Temperature Antiskyrmions and Sawtooth Surface Textures in a Noncentrosymmetric Magnet with S4 Symmetry, L. C. Peng, 2021
  • Dynamic Transition of Current-Driven Single-Skyrmion Motion in a Room-Temperature Chiral-Lattice Magnet, L. C. Peng, 2021
  • Tunable Néel-Bloch Magnetic Twists in Fe3GeTe2 with van Der Waals Structure, L. C. Peng, 2021
  • Controlled Transformation of Skyrmions and Antiskyrmions in a Non-centrosymmetric Magnet, L. C. Peng, 2020
  • Relaxation Dynamics of Zero-Field Skyrmions over a Wide Temperature Range, L. C. Peng, 2018
  • Real-Space Observation of Nonvolatile Zero-Field Biskyrmion Lattice Generation in MnNiGa Magnet, L. C. Peng, 2017
  • Generation of High-Density Biskyrmions by Electric Current, L. C. Peng, 2017
Keywords
Topological Magnetic Materials Devices Spintronics Electron Microscopy Simulation Nanomaterials Thin Films Superconducting
Related Professors
Jing Ma - Tsinghua University
Area of Focus
Ferroelectric | Multiferroic | Materials | Prototype | Devices | Strongly | Correlated | Functional | Oxide | Thin Films
Cheng Song - Tsinghua University
Area of Focus
Spintronics | Materials | Devices | Surface Acoustic Wave | Filters | Magnetoacoustic | Rf | Mobile Communication | Data Transmission | High Frequency
Ke Wang - Tsinghua University
Area of Focus
Piezoelectric | Ceramics | Lead-Free | Devices | Thermoelectric | Materials | Fabrication | Properties | Sintering | Electrical
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