Associate Professor | Hubei University of Education | China
Dr. Rui Lei is a materials science researcher whose work advances the development of nanostructured materials for energy storage, photocatalysis, and electrochemical applications. With a strong academic background in ferrous metallurgy and chemistry, he has built substantial expertise in designing, synthesizing, and optimizing functional nanomaterials that address critical challenges in energy efficiency and environmental remediation. His research portfolio, supported by 393 citations across 356 documents, 30 publications, and an h-index of 11, reflects a growing impact in the scientific community. Dr. Lei has contributed significant innovations in defect-engineered carbon nanotube networks, metal oxide nanostructures, and hybrid composite systems that enhance catalytic activity, charge transport, and electrochemical stability. His work includes the development of self-supported CNT networks for binder-free supercapacitors, MnO₂ nanowire-modified graphene–carbon nanotube systems, and heterojunction-based Fe₂O₃, SnO₂, and WO₃ nanostructures tailored for high-efficiency photocatalytic degradation and solar-driven catalytic reactions. He has also advanced electrochemical detection platforms through the engineering of graphitic edge plane-rich CNT networks for sensitive ascorbic acid and uric acid analysis. Dr. Lei’s methodological contributions span hydrothermal synthesis, electrodeposition, nanointerface design, and crystal morphology tuning, enabling improvements in reaction kinetics, light absorption, charge carrier dynamics, and long-term material stability. His research activities within collaborative laboratory environments have strengthened multidisciplinary efforts toward sustainable material solutions and next-generation energy devices. His scholarly output in respected international journals demonstrates both scientific rigor and technological relevance. Recognized with multiple academic excellence scholarships, Dr. Lei has shown consistent dedication to advancing materials science and nanotechnology. His expanding body of work highlights his ability to bridge fundamental chemistry with applied engineering, positioning him as a promising and influential researcher shaping innovations in energy materials and functional nanostructures.
Profile : Scopus
Featured Publications
Lei, R., Ni, H., Chen, R., Gu, H., & Zhang, B. (2025). A highly sensitive and selective detection of ascorbic acid and uric acid based on nitrogen-doped graphitic carbon nanotube networks in situ grown on 316L stainless steel. Journal of Crystal Growth.
Lei, R., Zhang, H., Ni, H., Chen, R., Gu, H., & Dong, S. (2024). Controllable synthesis of vertically aligned WO₃ nanoplate arrays on stainless steel for improved visible-light photoelectrocatalytic activity. New Journal of Chemistry.
Lei, R., Zhang, H., Ni, H., Chen, R., Gu, H., & Dong, S. (2023). High rate-performance supercapacitors based on nitrogen-doped graphitized carbon nanotube networks in situ grown on 316L stainless steel as binder-free electrodes. New Journal of Chemistry.
Dr. Rui Lei’s work advances the development of high-performance nanomaterials that enhance clean energy technologies, environmental remediation, and sustainable electrochemical systems. His innovations in photocatalysis, sensor materials, and energy storage electrodes support scientific progress while enabling scalable solutions for industry and global sustainability.