Dr. Xiaoguang Liu | Particle Experiments | Research Excellence Award

Published on by Physicist Particle

Dr. Xiaoguang Liu | Particle Experiments | Research Excellence Award

Associate Professor | University of Science and Technology Beijing | China

Dr. Xiaoguang Liu is a distinguished researcher whose work reflects a strong commitment to advancing materials science through the continuous integration of Particle Experiments that shape modern understanding of high temperature ceramics and catalytic systems. Dr. Xiaoguang Liu has built a research profile centered on the development of high temperature ceramic coatings designed for extreme operational environments, while also contributing to high efficiency catalysts applied in wastewater treatment, a field where Particle Experiments consistently guide both conceptual progress and practical outcomes. Through extensive engagement with Particle Experiments that support investigations of electron transfer mechanisms in Z scheme semiconductor catalysts, Dr. Xiaoguang Liu has strengthened fundamental knowledge and broadened technological applications across academic and industrial collaborations. With publications across journals indexed in global databases and contributions that extend to consultancy and industry oriented projects, Dr. Xiaoguang Liu has demonstrated how Particle Experiments reinforce the reliability, precision, and societal relevance of innovative research outputs. Editorial appointments further reflect scientific leadership shaped by meticulous Particle Experiments that validate results across catalytic and ceramic systems. Patents, authored works, and research projects also highlight the consistent integration of Particle Experiments as a methodological core that enhances the robustness of experimental design and the credibility of research conclusions. Professional engagements and collaborative activities continue to expand the impact of Particle Experiments within interdisciplinary frameworks, demonstrating sustained contributions to material enhancement, environmental improvement, and scientific advancement. With ongoing research inspired by Particle Experiments that support both theoretical insight and experimental validation, Dr. Xiaoguang Liu remains a significant contributor to globally relevant innovations. Scopus profile of 1,643 Citations, 54 Documents, 21 h index.

Profile: Scopus

Featured Publications

1. Synergistic design of a novel Z-Scheme M-r-MIL-88A(Fe)/Bi₅O₇I-OVs with Fe²⁺/Fe³⁺ and oxygen vacancies for high-efficiency peroxymonosulfate activation and pollutant degradation: Mechanisms and DFT calculation. Separation and Purification Technology. (2026).

2. Polyvinyl alcohol and methyl cellulose composite membrane for efficient degradation of methylene blue. Materials Chemistry and Physics. (2025).

3. Supramolecular perylene diimides for photocatalytic hydrogen production. (2025).

4. Research progress and development trends in the anti-oxidation mechanism and performance enhancement of uranium nitride as an accident-resistant nuclear fuel. Gongcheng Kexue Xuebao / Chinese Journal of Engineering. (2025).

5. Preparation of Co/S co-doped carbon catalysts for excellent methylene blue degradation. International Journal of Minerals, Metallurgy and Materials. (2025).

Prof. Dr. Xianming Zhou | Molecular Physics | Research Excellence Award

Published on by Physicist Particle

Prof. Dr. Xianming Zhou | Molecular Physics | Research Excellence Award

Professor | Xianyang Normal University | China

Prof. Dr. Xianming Zhou  is a distinguished scholar recognized for his extensive contributions to molecular physics and related branches of advanced physical sciences. Serving as Deputy Director of a leading Ion-Beam and Optical Physics Laboratory, he has established a strong research profile marked by high-impact publications, interdisciplinary collaborations, and sustained contributions to fundamental and applied molecular physics. His work spans particle physics, high-charge ion physics, atomic interactions, radiation processes, and the complex behaviour of matter under extreme conditions, all consistently grounded in the principles and analytical frameworks of molecular physics. Prof. Dr. Xianming Zhou has authored numerous publications in respected international journals, contributing significantly to the global understanding of ion-matter interactions and the evolution of precision measurement approaches derived from molecular physics. His research outputs include more than two dozen peer-reviewed articles, demonstrating a strong record of innovation, methodological advancement, and scholarly rigour. Many of his studies are frequently cited and positioned at the forefront of contemporary research in molecular physics, high-charge ion dynamics, and atomic collision phenomena. Throughout his research career, Prof. Dr. Xianming Zhou has collaborated with experts across major scientific institutes and laboratories, enhancing the global visibility of his contributions. His investigations often integrate experimental and theoretical tools, extending the reach of molecular physics into frontier areas such as X-ray emission mechanisms, electron behaviour in extreme environments, and the broader physics of energetic ions. His leadership roles have further strengthened the development of research programmes grounded in molecular physics, supporting emerging scholars and facilitating high-level scientific cooperation. The societal impact of his work is reflected in its relevance to advanced instrumentation, materials analysis, radiation science, and precision technologies, where molecular physics remains central to innovation. Prof. Dr. Xianming Zhou continues to influence the international research community through his sustained commitment to molecular physics, his capacity for scientific leadership, and his enduring contributions to the advancement of modern physics.

Profile: ORCID

Featured Publications

1. Zhou, X.-M., Wei, J., Cheng, R., Liang, C.-H., Chen, Y.-H., Zhao, Y.-T., & Zhang, X.-A. (2023). K-shell X-ray of Al produced by collisions of ions with near Bohr velocities. Acta Physica Sinica, 72.

2. Zhou, X., Wei, J., Cheng, R., Zhang, Y., Zhang, Y., Chen, Y., Zhang, X., & Zhao, Y. (2023). L-shell X-ray production cross sections in 50Sn by 100 keV–300 keV protons. Radiation Physics and Chemistry, 110789.

3. Liang, C., Zhang, X., Zhou, X., Zhao, Y., Cheng, R., & Xiao, G. (2023). 96_42Mo L-shell X-ray production cross sections by 2.0–6.0 MeV 15263Eu ions. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms.

4. Zhou, X.-M., Wei, J., Cheng, R., Mei, C.-X., Zeng, L.-X., Wang, X., Liang, C.-H., Zhao, Y.-T., & Zhang, X.-A. (2022). W L-shell X-ray emission induced by C⁶⁺ ions with several hundred MeV/u. Acta Physica Sinica, 70.

5. Zhou, X., Wei, J., Cheng, R., Zhang, Y., Chen, Y., Liang, C., Zhang, X., & Zhao, Y. (2022). Au L-shell X-ray emission induced by 154.3–423.9 MeV/u C⁶⁺ ions. Scientific Reports.