Assoc. Prof. Hengfu Lin: College of Science, Wuhan University of Science and Technology in China
Dr. Heng-Fu Lin is an Associate Professor at the Faculty of Science, Wuhan University of Science and Technology, China. With a strong background in theoretical and computational physics, his work primarily focuses on quantum materials, electronic and magnetic properties, and novel 2D materials. He holds a Ph.D. from the Institute of Physics, Chinese Academy of Sciences, and has contributed significantly to understanding the behavior of quantum many-body systems, particularly through the application of advanced numerical methods like density functional theory (DFT) and quantum Monte Carlo simulations.
Online Profiles
Lin, Hengfu is an Associate Professor at the College of Science, Wuhan University of Science and Technology, Wuhan, China. With a growing academic impact, Prof. Lin has accumulated 340 citations across 305 documents, published 36 research articles, and achieved an h-index of 10, reflecting his significant contributions to his field. He is associated with global research platforms like ORCID and Mendeley, enhancing his engagement with the international research community.
Education
Dr. Lin completed his undergraduate studies in Physics at Southwest University in Chongqing, China (2005–2009), where he earned his Bachelor’s degree. He later pursued a Ph.D. in Theoretical and Computational Quantum Physics at the Institute of Physics, Chinese Academy of Sciences (2009–2015), under the mentorship of Professor Wu-Ming Liu. His doctoral research focused on many-particle physics, quantum mechanics, and computational methods to study material properties at the quantum level.
Research Focus
Dr. Lin’s primary research interests are centered on the theoretical and computational exploration of material properties, particularly through density functional theory (DFT) and other advanced numerical techniques. He investigates defects, topological electronic and magnetic properties, and the potential of 2D materials like graphene in electronics and spintronics. Dr. Lin is also interested in the study of quantum phases of ultra-cold fermions in optical lattices, applying methods such as the real-space cellular dynamical mean-field theory (R-CDMFT) to probe complex quantum systems.
Experience
Dr. Lin has been an Associate Professor at Wuhan University of Science and Technology since 2019, where he teaches and conducts research in the Faculty of Science. Prior to this, he worked as a Lecturer at the same institution from 2017 to 2019. His postdoctoral work at the Beijing Computational Science Research Center (2015–2017) involved collaboration with Professors Jijun Zhao and Li-Min Liu, focusing on computational modeling of complex materials and quantum systems.
Research Timeline
- 2015–2017: Postdoctoral Researcher, Beijing Computational Science Research Center, focusing on materials and quantum systems with Professors Jijun Zhao and Li-Min Liu.
- 2017–2019: Lecturer, Faculty of Science, Wuhan University of Science and Technology, specializing in theoretical and computational physics.
- 2019–Present: Associate Professor, Faculty of Science, Wuhan University of Science and Technology, leading research in computational materials science, especially in 2D materials and quantum systems.
Awards & Honors
Dr. Lin has received numerous accolades throughout his academic career. Notable honors include the Recognition Award by the Institute Director at the Institute of Physics in Beijing (2011–2013), and the Excellent Graduate distinction from Southwest University in 2009. He also received the National Endeavor Fellowship in China (2008), and various scholarships for academic excellence during his undergraduate years.
Top-Noted Publication
Dr. Lin has authored and co-authored numerous influential papers, with his top-cited works being on materials science, 2D heterostructures, and the magnetic properties of quantum materials. One such significant paper is titled “Tunable band alignment and large power conversion efficiency in two-dimensional InS/ZnIn₂S₄ heterostructure,” published in RSC Advances in 2024. This paper addresses advances in the development of high-efficiency materials for electronic applications. Other noteworthy publications include his work on Janus 2D materials and the spin-orbit properties of materials in Physical Chemistry Chemical Physics and Journal of Applied Physics.
Assoc. Prof. Hengfu Lin has contributed extensively to cutting-edge research in materials science and condensed matter physics. His recent publications explore diverse topics, including two-dimensional heterostructures, high-temperature oxidation mechanisms, and magnetic properties in advanced materials:
“Tunable band alignment and large power conversion efficiency in a two-dimensional InS/ZnIn2S4 heterostructure” (RSC Advances, 2024) investigates novel materials for enhanced photovoltaic efficiency.
“Electronic-scale assessment of high-temperature oxidation mechanisms in a novel Fe-based alloy” (Journal of Iron and Steel Research International, 2024) explores innovative alloys for high-temperature applications.
“Complicated point defects in monolayer Ga₂S₃: stability, midgap states, and magnetism” (Computational Materials Science, 2023) delves into defect engineering and magnetic properties in two-dimensional materials.
“Bipolar ferromagnetic semiconductors and dipole-modulated magnetism in two-dimensional Janus transition metal dihalides” (Journal of Applied Physics, 2023) examines the magnetic properties of transition metal-based semiconductors, with 5 citations highlighting its impact.
“Insights into the high magnetic field-induced austenite formation in medium manganese steel” (Journal of Materials Research and Technology, 2023), another highly cited work, focuses on phase transformations in advanced steels.