deputy director at Shandong University, China
Guanglei Zhang is a distinguished professor and deputy director at the National Engineering Research Center for Colloid Materials, Shandong University, China. With extensive expertise in advanced materials, his work integrates cutting-edge technologies in ceramics, aerogels, and metamaterials. He holds a B.S. from Yanshan University and a Ph.D. from Beijing University of Technology. His research has contributed significantly to the development of high-performance materials for various applications, including energy-efficient building materials, electronic devices, and packaging ceramics. Zhang has authored numerous publications and holds multiple patents. He is recognized for his outstanding achievements in materials science and has been honored with several prestigious awards. His multidisciplinary approach blends innovation in material properties with practical industrial applications. πππ‘
Publication Profile
scopus
Education ππ¬π
Guanglei Zhang earned his Bachelorβs degree in Materials Science from Yanshan University (2000), followed by a Ph.D. in Materials Science from Beijing University of Technology (2005). His academic journey provided a solid foundation in material science, specializing in ceramics and advanced materials. These degrees enabled Zhang to explore new innovations in aerogels and materials for energy-saving technologies. Throughout his educational career, Zhang developed a keen interest in the application of nanomaterials and advanced composites in energy-efficient technologies, guiding his future research. The education he received was instrumental in shaping his career as a prominent scientist and researcher in the field of materials science.
Experienceπππ
Professor Guanglei Zhangβs academic career spans multiple prestigious roles. He began as a lecturer and associate professor at Shijiazhuang Tiedao University (2005β2013). He later became a professor and deputy dean (2013β2021). Currently, Zhang serves as a professor and deputy director at the National Engineering Technology Research Center for Colloid Materials, Shandong University (since 2023). Over the years, Zhang has significantly contributed to the field of materials science, leading various research projects on advanced ceramics and aerogels. His leadership roles have further solidified his reputation as an expert in material innovation.
Awards and Honors πποΈπ
Zhang has earned several prestigious awards throughout his career. In 2021, he received the Hebei Province Industry-Academia-Research Cooperation Innovation Award, acknowledging his contributions to material science research. In 2013, he was awarded the Hebei Province Excellent Teaching Achievement Third Prize for his outstanding pedagogical skills. In 2010, he was honored with the Shijiazhuang City Science and Technology Progress Second Prize for his innovative work in materials science. These accolades highlight Zhangβs dedication to both research and education in his field.
Research Focusπ¬π‘β‘
Professor Zhangβs research focuses on advanced ceramics, aerogels, and metamaterials, with a particular emphasis on developing novel materials with enhanced properties. His work includes improving dielectric properties for packaging ceramics, designing Mie-metamaterials for electromagnetic absorption, and developing low thermal conductivity flame retardant polyurethane aerogels. Zhangβs interdisciplinary approach blends material science with practical applications in energy-saving technologies, packaging, and electronic devices. His innovations continue to push the boundaries of materials science, making a significant impact on both academia and industry.
Publications π
Supercapacitors with Precision Ordered Structure Electrodes for AC Line Filtering
Authors: Zhao, Q., Zhang, G., Yang, S., Li, Y.
Journal: Journal of Energy Storage
Year: 2025
DOI: 108, 115028
Abstract: This study likely addresses advancements in supercapacitors with precision-ordered electrodes designed for improving AC line filtering. Such supercapacitors could enhance energy storage and power quality in electrical systems.
Metamaterials-Based Passive Wireless Sensor for Concrete Structures
Authors: Wu, H., Wang, Y., Zhai, M., Zhang, G., Fu, H.
Journal: Physica B: Condensed Matter
Year: 2024
DOI: 694, 416434
Abstract: This paper explores the use of metamaterials in the development of passive wireless sensors for monitoring concrete structures. These sensors could offer innovative ways to assess the health and durability of concrete in infrastructure projects.
Research on Vehicle Identification Based on Multi-modal Fusion
Authors: Gao, A., Zhang, G.
Journal: International Journal of Transport Development and Integration
Year: 2024, 8(3), pp. 371β382
Abstract: This study focuses on the fusion of multiple modalities to enhance vehicle identification systems, which could improve traffic monitoring, security, and transportation efficiency.
Effect of Functional Groups of Plasticizers on Starch Plasticization
Authors: Chen, Y., Wang, Z., Jia, L., Zhang, G., Yang, J.
Journal: Colloid and Polymer Science
Year: 2024, 302(9), pp. 1323β1335
Abstract: This paper examines how different functional groups in plasticizers affect the plasticization of starch, which is critical for the development of biodegradable materials.
Investigation of Piezoelectric Properties of Wurtzite AlN Films under In-Plane Strain: A First-Principles Study
Authors: Qin, G., Zhao, Z., Wang, A., Yu, G., Zhang, G.
Journal: Coatings
Year: 2024, 14(8), 984
Abstract: This research investigates the piezoelectric properties of wurtzite AlN films under strain, providing insights into their potential applications in sensors and energy harvesting devices.
A Review of High-Temperature Aerogels: Composition, Mechanisms, and Properties
Authors: Wang, C., Bai, L., Xu, H., Li, Y., Zhang, G.
Journal: Gels
Year: 2024, 10(5), 286
Abstract: This review focuses on high-temperature aerogels, discussing their composition, mechanisms, and properties, which are important for various industrial and engineering applications.
Interfacial Microstructures and Thermal/Electrical Conductivity of High-Temperature Co-Fired Alumina Ceramic Substrates
Authors: Hao, Y., Zhang, G., Bai, L., Jin, H., Gao, S.
Journal: International Journal of Applied Ceramic Technology
Year: 2024
Abstract: This paper explores the thermal and electrical conductivity of alumina ceramic substrates, with a focus on interfacial microstructures in high-temperature applications.
Electromagnetic Absorption Enhancement of Concrete Using Metamaterials
Authors: Wu, H., Zhang, Y., Dong, H., Qin, S., Zhang, G.
Journal: Modern Physics Letters B
Year: 2023, 37(23), 2350055
Abstract: This paper investigates how metamaterials can be used to enhance the electromagnetic absorption properties of concrete, making it more effective in shielding applications.
Microstructure and Properties of High-Entropy Diboride Composites Prepared by Pressureless Sintering
Authors: Yang, Z., Gong, Y., Zhang, S., Yu, G., Song, S.
Journal: Journal of Alloys and Compounds
Year: 2023, 952, 169975
Abstract: This study examines the microstructure and properties of high-entropy diboride composites, offering insights into their potential for high-performance applications.
Phase Transformation Behavior of Aluminum under High Hydrostatic Pressure: A Molecular Dynamics Study
Authors: Yu, Z., Qin, S., Zhang, K., Wang, C., Zhang, G.
Journal: Materials Today Communications
Year: 2023, 35, 106199
Abstract: This research investigates the phase transformation of aluminum under high hydrostatic pressure using molecular dynamics simulations, contributing to the understanding of materials under extreme conditions.
Conclusion
Professor Guanglei Zhang is undoubtedly a strong contender for the Best Researcher Award. His extensive body of work, demonstrated leadership in advanced ceramics and metamaterials, and recognition in the form of awards and patents, make him a deserving candidate. His ongoing contributions to materials science, particularly through his innovations in aerogels, ceramics, and metamaterials, have made significant strides in both academia and industry. With further collaborations and expanding his research horizons, Professor Zhang has the potential to continue shaping the future of materials science, making him a standout in the scientific community.