Assistant Research Scientist | Beijing Academy of Quantum Information Sciences | China
Dr. Mohsin Rafique is an accomplished researcher in the field of Condensed Matter Physics, currently serving as a Research Scientist (Assistant) at the Beijing Academy of Quantum Information Sciences, China. His academic foundation in physics, including a PhD and MS from COMSATS Institute of Information Technology, has enabled him to explore critical areas of Condensed Matter Physics, particularly focusing on quantum transport, superconductivity, and magnetoelectric materials. Throughout his professional journey, he has contributed extensively to Condensed Matter Physics research through postdoctoral work at Tsinghua University and collaborative projects in Germany and Italy. His research interests encompass quantum phase transitions, magnetism, and multiferroic thin films all deeply rooted in Condensed Matter Physics principles. Dr. Rafique has received multiple awards and fellowships, including the Tsinghua University Postdoctoral Fellowship and COMSATS Research Productivity Award, reflecting his excellence in Condensed Matter Physics research and innovation. His research skills span quantum material fabrication, magnetoelectric measurements, and nanoscale device development, further demonstrating his command of Condensed Matter Physics methodologies. His work has been published in top-tier journals like Nano Letters, Applied Physics Letters, and Nature Communications, showcasing significant contributions to Condensed Matter Physics and related interdisciplinary fields. With his dedication to advancing scientific understanding in Condensed Matter Physics, Dr. Mohsin Rafique stands as a prominent figure whose expertise continues to influence modern material science.Google Scholar profile of 553 Citations, 13 h-index, 18 i10-index.
Profiles: Google Scholar | ORCID
Featured Publications
1. Rashid, J., Abbas, A., Chang, L. C., Iqbal, A., Haq, I. U., Rehman, A., Awan, S. U., & others. (2019). Butterfly cluster like lamellar BiOBr/TiO₂ nanocomposite for enhanced sunlight photocatalytic mineralization of aqueous ciprofloxacin. Science of the Total Environment, 665, 668–677.
2. Rashid, J., Saleem, S., Awan, S. U., Iqbal, A., Kumar, R., Barakat, M. A., Arshad, M., & others. (2018). Stabilized fabrication of anatase-TiO₂/FeS₂ (pyrite) semiconductor composite nanocrystals for enhanced solar light-mediated photocatalytic degradation of methylene blue. RSC Advances, 8(22), 11935–11945.
3. Liao, M., Wang, H., Zhu, Y., Shang, R., Rafique, M., Yang, L., Zhang, H., Zhang, D., & others. (2021). Coexistence of resistance oscillations and the anomalous metal phase in a lithium intercalated TiSe₂ superconductor. Nature Communications, 12(1), 5342.
4. Awan, S. U., Hasanain, S. K., Rashid, J., Hussain, S., Shah, S. A., Hussain, M. Z., & others. (2018). Structural, optical, electronic and magnetic properties of multiphase ZnO/Zn(OH)₂/ZnO₂ nanocomposites and hexagonal prism shaped ZnO nanoparticles synthesized by pulse laser. Materials Chemistry and Physics, 211, 510–521.
5. Rafique, M., Feng, Z., Lin, Z., Wei, X., Liao, M., Zhang, D., Jin, K., & Xue, Q. K. (2019). Ionic liquid gating induced protonation of electron-doped cuprate superconductors. Nano Letters, 19(11), 7775–7780.*