Prof. Minghu Fang | Quantum Materials | Best Research Article Award 

Prof. Minghu Fang | School of Physics, Zhejiang University |  China

Prof. Minghu Fang is a Professor of Physics at Zhejiang University, specializing in strongly correlated electron systems, quantum phase transitions, unconventional superconductors, magnetic materials, and topological materials. His group has made landmark discoveries of three superconducting systems Fe(Te,Se), (Tl,K,Rb)FeₓSe₂, and TlNi₂(Se,S)₂ drawing worldwide attention in the superconductivity field. With over 180 publications and more than 6,000 citations, he has significantly advanced the understanding of non-Fermi liquid behavior and magnetotransport phenomena. His achievements have been recognized with major science prizes from the Zhejiang and Beijing governments in 2021.

Author Profile

Scopus

Early Academic Pursuits

Prof. Minghu Fang laid the foundation of his distinguished academic career through rigorous training in physics. He earned his B.S. in Physics from Anhui University (1980–1984) and further specialized in Low Temperature Physics at the University of Science and Technology of China, where he completed his Master’s degree (1986–1989). His academic excellence continued at Zhejiang University, where he obtained his Ph.D. in Condensed Physics in 1992. This strong academic background set the stage for his pioneering work in Quantum Materials and strongly correlated electron systems.

Professional Endeavors

After completing his doctoral studies, Prof. Fang joined Zhejiang University, progressing rapidly from Assistant Professor (1992–1993) to Associate Professor (1993–1996) and eventually to Professor of Physics (1996–present). His academic journey includes multiple international appointments, such as postdoctoral fellowships at Kyoto University (1998–2000, JSPS Fellow) and Tulane University, USA (2007–2008). He has also served as a Visiting Professor and Distinguished Visiting Professor at Kyoto University on multiple occasions. These professional endeavors enriched his global perspective and reinforced his standing in the Quantum Materials research community.

Contributions and Research Focus

Prof. Minghu Fang’s research focus centers on Quantum Materials, including strongly correlated electron systems, quantum phase transitions, non-Fermi liquid behavior, magnetic materials, Fe-based superconductors, Cu-oxide superconductors, and topological materials. His group has made groundbreaking contributions, particularly in the discovery of three superconducting systems: Fe(Te,Se), (Tl,K,Rb)FexSe2, and TlNi2(Se,S)2. These discoveries have had a lasting influence in the global superconductivity community. His prolific output includes more than 180 publications, with a citation count exceeding 6150 times, reflecting the broad impact of his scientific contributions.

Impact and Influence

Prof. Fang’s discoveries and insights into Quantum Materials have placed him at the forefront of international condensed matter physics. His recognition includes two prestigious Science Prizes (2021) awarded by the Zhejiang Province Government and the Beijing Government for his pioneering work in superconductivity and magnetic structures. These awards underscore his influence in shaping modern perspectives on high-temperature superconductors and related Quantum Materials.

Academic Cites

The academic community has acknowledged Prof. Fang’s research extensively, with over 6150 citations across leading journals such as Physical Review B, Physical Review Research, Advanced Functional Materials, Applied Physics Reviews, and Communications Materials. His representative publications on topics like universal scaling behaviors, magnetoresistance, nodal-net semimetals, and plasmonic effects continue to inspire researchers worldwide and advance the study of Quantum Materials.

Legacy and Future Contributions

Prof. Minghu Fang’s legacy lies in his pioneering discoveries in superconductivity and correlated electron physics. Moving forward, his research will continue to explore novel superconducting and topological systems, pushing the boundaries of Quantum Materials. By mentoring students, collaborating internationally, and leading innovative projects, he ensures that his influence extends to future generations of physicists. His future contributions are expected to further unravel the mysteries of superconductivity, magnetic phenomena, and quantum electronic phases.

Notable Publications

Scaling behavior of magnetoresistance and Hall resistivity in the altermagnet CrSb

Journal: Physical Review B

Year: 2025

Citations: 1

Plasmonic Photovoltaic Effect of an Original 2D Electron Gas System and Application in Mid-Infrared Imaging

Journal: Advanced Functional Materials

Year: 2024

Citations: 3

Negative magnetoresistance in the antiferromagnetic semimetal V₁/₃TaS₂

Journal: Chinese Physics B

Year: 2024

Citations: 1

Bulk superconductivity in transition metal oxide TaO

Journal: Physica C: Superconductivity and Its Applications

Year: 2023

Citations: 4

Superconductivity in TlBi₂ with a large Kadowaki-Woods ratio

Journal: Physical Review B

Year: 2022

Citations: 7

Large positive and negative magnetoresistance in the magnetic EuCu₄As₂ crystal

Journal: Journal of Alloys and Compounds

Year: 2022

Citations: 5

Conclusion

Prof. Minghu Fang’s career is a testament to academic excellence, international collaboration, and groundbreaking contributions to Quantum Materials research. From his early academic pursuits to his present role as a global leader in superconductivity and condensed matter physics, his work has left a profound mark on science. With a legacy defined by over 180 influential papers, multiple high-level awards, and the discovery of new superconducting systems, Prof. Fang continues to shape the direction of Quantum Materials research and will remain a central figure in advancing physics worldwide.