Lei Xia | Chemistry and Materials Science | Research Excellence Award

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Assoc Prof Dr. Lei Xia | Chemistry and Materials Science | Research Excellence Award

University of Science & Technology Liaoning | China

Dr. Lei Xia is an accomplished materials scientist and associate professor at the University of Science & Technology Liaoning, specializing in materials processing, tribology, corrosion protection, and computational simulation. He holds a PhD in Applied Chemistry from the Research Institute of Petroleum Processing, a Master’s degree in Materials Forming and Control Engineering from the University of Science and Technology Beijing, and a Bachelor’s degree from Yanshan University. Since joining USTL as a lecturer in 2019 and becoming associate professor in 2024, Dr. Xia has developed a strong research portfolio integrating experimental, theoretical, and simulation-based approaches to improve metal processing technologies. His major research areas include tribology and lubrication mechanisms in rolling processes, microstructure–property relationships in metallic materials, corrosion behavior and protective coatings, and molecular-level insights into lubricant oxidation and surface interactions using MD and QM simulations. Dr. Xia has completed and contributed to multiple national and enterprise-supported research projects, focusing on the improvement of steel, aluminum, and copper alloy processing performance. His scholarly contributions exceed 40 publications in high-impact SCI and EI journals, such as Lubricants, Metals, Materials Research Express, Tribology Letters, Rare Metal Materials and Engineering, and China Petroleum Processing & Petrochemical Technology. Many of his works investigate fatigue properties, lubricant chemistry, tribological behaviors, corrosion mechanisms, and the influence of process parameters on material performance. He has published two patents and numerous articles as corresponding or first author, demonstrating his leadership in research innovation. Dr. Xia’s contributions extend to several industrial collaborations with major enterprises such as Anshan Iron and Steel Group, Baowu Group, and Sinopec, where his work has directly supported advancements in rolling technology and surface quality control. His recognition includes selection for the prestigious Liaoning “Baiqianwan Talent Program” and the “Steel Capital Talent Plan.” Alongside his research, he serves on the youth editorial boards of multiple journals including Journal of Iron and Steel Research, Rolling Steel, Special Steel, Mechanical Engineering Newsletter, and Journal of Materials and Metallurgy. He is also an active member of professional societies such as the Chinese Mechanical Engineering Society, Chinese Materials Research Society, Chinese Chemical Society, and the China Nonferrous Metals Industry Association. Through interdisciplinary expertise, impactful publications, industrial collaborations, and major talent awards, Dr. Xia has made significant contributions to tribology, corrosion protection, and advanced materials processing, strengthening both academic research and industrial innovation.

Profile: Google Scholar

Featured Publications

Xia, L., Ma, Z., Kokogiannakis, G., Wang, Z., & Wang, S. (2018). A model-based design optimization strategy for ground source heat pump systems with integrated photovoltaic thermal collectors. Applied Energy, 214, 178–190. https://doi.org/10.1016/j.apenergy.2018.02.024

Ma, Z., Xia, L., Gong, X., Kokogiannakis, G., Wang, S., & Zhou, X. (2020). Recent advances and development in optimal design and control of ground source heat pump systems. Renewable and Sustainable Energy Reviews, 131, 110001. https://doi.org/10.1016/j.rser.2020.110001

Duong, H. C., Xia, L., Ma, Z., Cooper, P., Ela, W., & Nghiem, L. D. (2017). Assessing the performance of solar thermal driven membrane distillation for seawater desalination by computer simulation. Journal of Membrane Science, 542, 133–142. https://doi.org/10.1016/j.memsci.2017.08.019

Xia, L., Ma, Z., Kokogiannakis, G., Wang, S., & Gong, X. (2018). A model-based optimal control strategy for ground source heat pump systems with integrated solar photovoltaic thermal collectors. Applied Energy, 228, 1399–1412. https://doi.org/10.1016/j.apenergy.2018.06.017

Chen, J., Xia, L., Li, B., & Mmereki, D. (2015). Simulation and experimental analysis of optimal buried depth of the vertical U-tube ground heat exchanger for a ground-coupled heat pump system. Renewable Energy, 73, 46–54. https://doi.org/10.1016/j.renene.2014.06.055

Qi, D., Pu, L., Ma, Z., Xia, L., & Li, Y. (2019). Effects of ground heat exchangers with different connection configurations on the heating performance of GSHP systems. Geothermics, 80, 20–30. https://doi.org/10.1016/j.geothermics.2019.01.006

Xia, L., Ma, Z., McLauchlan, C., & Wang, S. (2017). Experimental investigation and control optimization of a ground source heat pump system. Applied Thermal Engineering, 127, 70–80. https://doi.org/10.1016/j.applthermaleng.2017.07.111

Gong, X., Xia, L., Ma, Z., Chen, G., & Wei, L. (2018). Investigation on the optimal cooling tower input capacity of a cooling tower assisted ground source heat pump system. Energy and Buildings, 174, 239–253. https://doi.org/10.1016/j.enbuild.2018.06.021

Nighil Nath MP | Chemistry and Materials Science | Editorial Board Member

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Dr. Nighil Nath MP | Chemistry and Materials Science | Editorial Board Member

University of Calicut | India

Dr. Nighil Nath M. P. is a dedicated physicist and educator whose research focuses on condensed matter theory, materials science, glass-forming systems, plastic crystals, low-temperature physics, and broadband dielectric spectroscopy. With a strong foundation in both theoretical and experimental physics, he has significantly contributed to understanding the thermal and dielectric behaviors of orientationally disordered systems. His investigations using advanced techniques such as Differential Scanning Calorimetry (DSC) and temperature-controlled X-Ray Diffraction (X-RD) have shed light on the structural and phase transition dynamics of complex molecular materials. Dr. Nath earned his Ph.D. in Physics from the University of Calicut, Kerala, in 2022, where his thesis, “Thermal and Spectroscopic Investigations on Some Plastic Crystals,” provided deep insights into the thermal and dielectric relaxation mechanisms in molecular solids. His academic journey began with a B.Sc. in Physics from Zamorin’s Guruvayurappan College (2008) and an M.Sc. in Physics from CMS College, Kottayam (2012). Over the years, he has demonstrated a strong passion for advancing material characterization techniques and understanding the microscopic processes governing physical properties of crystalline and amorphous materials. Dr. Nath’s publication record reflects his rigorous approach to scientific inquiry. His works have appeared in prestigious journals such as Journal of Physics and Chemistry of Solids, Indian Journal of Physics, Journal of Molecular Liquids, and Materials Today Proceedings. Among his notable contributions are studies on tetrahedrally coordinated organic plastic crystals, phase transition dynamics in cyclohexene oxide, and dielectric relaxation in ionic liquids. These papers not only enrich the literature on material science but also open new pathways for the application of plastic crystals and related compounds in energy storage and optoelectronic devices. Beyond research, Dr. Nath is an accomplished academic mentor, having guided over 50 M.Sc. students in various experimental and theoretical projects between 2014 and 2020. Currently serving as a High School Assistant (Physical Science) at the Government Higher Secondary School, Kakkodi, Kozhikode, Kerala, since December 2022, he continues to inspire young minds with his deep scientific insight and enthusiasm for discovery. His career reflects a harmonious blend of scientific innovation, academic excellence, and educational commitment, establishing him as a promising researcher and educator in the field of condensed matter and material physics.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Kottummal, T. K., Pilathottathil, S., Thayyil, M. S., Perumal, P. M., Sreekala, K. K. N., & Nighil Nath, M. P. (2018). Dielectric relaxation and electrochemical studies on trihexyl tetradecyl phosphonium chloride ionic liquid. Journal of Molecular Liquids, 252, 488–494.

Nighil Nath, M. P., & Sulaiman, M. K., & Thayyil, M. S. (2019). Thermal and dielectric spectroscopic investigation on orientationally disordered crystal—Cyclobutanol. Materials Today: Proceedings, 18, 1620–1626.

Manal Poovingal, N. N., Thayyil, M. S., Afzal, A., & Govindaraj, G. (2022). Thermal and dielectric studies on orientationally disordered crystal: Cyclobutanol. Indian Journal of Physics, 96(7), 1991–1999.

Afzal, A., Thayyil, M. S., Mohamed, M. N. S., Nighil Nath, M. P., & others. (2025). Broadband dielectric spectroscopic studies of acemetacin, colchicine and bezafibrate during quench cooling, and in supercooled liquid phase by dielectric modulus formalism. Indian Journal of Physics, 1–11.

Nath, M. P. N., Thayyil, M. S., & Afzal, A. (2025). Phase transition dynamics and dielectric relaxations in orientationally disordered crystal: A study of cyclohexene oxide. Journal of Physics and Chemistry of Solids, 207, 112839.

Nath, M. P. N., Thayyil, M. S., & Afzal, A. (2025). Thermal and dielectric spectroscopic investigations on tetrahedrally coordinated organic plastic crystals: Aminomethylpropanediol and pentaglycerol. Journal of Physics and Chemistry of Solids, 113019.

Linhan He | Chemistry and Materials | Best Researcher Award

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Ms. Linhan He | Chemistry and Materials | Best Researcher Award | 13181

Ms. Linhan He, Shenyang ligong university, China

Ms. Linhan He is affiliated with Shenyang Ligong University in China. Her academic and professional background reflects a strong focus on innovation and research. As a representative of Shenyang Ligong University, she contributes to advancements in her field and actively participates in academic and collaborative initiatives to foster knowledge and technology development.

Profile

Scopus

🌟 Early Academic Pursuits

Linhan He’s academic journey began with a deep curiosity and passion for chemistry, materials science, and physics. Currently pursuing a master’s degree in Optical Engineering at Shenyang Ligong University, Linhan has shown an unwavering commitment to expanding the boundaries of scientific knowledge. His education has been marked by a rigorous focus on advanced computational chemistry and quantum mechanics. Throughout his academic career, Linhan has demonstrated exceptional analytical skills and a passion for exploring complex concepts, laying a solid foundation for his future contributions to science and technology.

🏗️ Professional Endeavors

Despite being early in his career, Linhan has actively engaged in research that bridges theoretical exploration and practical application. His primary research interests include optoelectronic materials, computational modeling, and the properties of two-dimensional nanomaterials. Linhan’s role as a student-researcher at Shenyang Ligong University has positioned him to collaborate with leading academics and researchers in the field. His professional endeavors are not limited to academia; he has also actively sought opportunities to contribute to interdisciplinary projects, further broadening his expertise and impact.

🔬 Contributions and Research Focus

Linhan He’s research primarily focuses on the electronic and electrical properties of bilayer silicene nanoribbons, a promising material in the field of nanotechnology and flexible electronics. His notable contributions include:

  1. Published Works: Linhan has published two peer-reviewed papers in high-impact journals.
    • “The Effect of Carbon Chain Doping at Different Positions on the Electrical Properties of Bilayer Silicene Nanoribbons” (Journal of Materials Science, 2024).
    • “Electronic Properties of Bilayer Silicene Nanoribbons Modulated by External Electric Field and Carbon Adsorption” (Journal of Physics and Chemistry of Solids, 2025).
  2. Research Methodologies: Using computational simulations and quantum mechanics, Linhan has investigated innovative approaches to improve the performance and efficiency of nanomaterials.
  3. Interdisciplinary Approach: Linhan’s research intersects physics, chemistry, and material science, emphasizing the real-world applicability of theoretical findings.

🏆 Accolades and Recognition

Linhan’s dedication to research excellence has earned him recognition in the scientific community. Though still in the early stages of his career, he has already gained accolades for his publications and academic achievements. His research papers are cited in respected databases such as the Science Citation Index (SCI), showcasing the significance of his contributions. Linhan’s work reflects a rare combination of creativity and rigor, earning him a nomination for the prestigious Best Researcher Award.

🌍 Impact and Influence

Linhan He’s research in bilayer silicene nanoribbons is expected to have a far-reaching impact on fields such as flexible electronics, energy storage, and nanotechnology. By improving the understanding of the electronic properties of advanced materials, his work contributes to the development of next-generation devices.

His research has already gained international attention, with publications in globally recognized journals, indicating its relevance to the scientific community at large. Linhan’s dedication to creating innovative solutions ensures that his work resonates beyond academia, influencing industry practices and technological advancements.

🌱 Legacy and Future Contributions

As a rising star in the field of optical engineering and materials science, Linhan He is poised to make significant contributions in the years to come. He envisions applying his research to create sustainable, high-performance materials for electronics and other applications. Linhan is also passionate about mentoring young scientists and fostering a culture of innovation within his academic and professional communities.

With a focus on interdisciplinary collaboration and applied research, Linhan aims to expand his expertise into emerging areas such as artificial intelligence-driven materials design and environmentally friendly nanotechnology solutions. His journey is a testament to the power of curiosity and perseverance in shaping the future of science.

Publication Top Notes

Electronic characterization of bilayer silicene nanoribbons

Author: Qian, Z., Wu, L., Wang, Z., Zhao, K., Zhang, Q.

Journal: Materials Science in Semiconductor Processing

Year: 2024

The effect of carbon chain doping at different positions on the electrical properties of bilayer silicene nanoribbons

Author: He, L., Wu, L., Wang, S., Liu, Y., Shen, L.

Journal: Materials Science

Year: 2024

Effect of vacancy defect on the structural and electrical properties of single-walled silicon nanotube

Author: Wang, S., Wu, L., Wang, Z., Liu, Y., Shen, L.

Journal: Materials Today Communications

Year: 2024