Nanjing University of Information Science & Technology | China
Bin Quan is a materials scientist at the Institute of Advanced Materials and Flexible Electronics, Nanjing University of Information Science & Technology, known for his contributions to carbon-based and metal-oxide electromagnetic wave absorption, 3D-printed microwave‐absorbing devices, and advanced structural characterization. He earned his engineering doctorate from Nanjing University of Aeronautics and Astronautics under the supervision of Prof. Guangbin Ji and gained extensive international research experience at Nanyang Technological University and the China Academy of Engineering Physics. His work integrates materials synthesis, first-principles simulation, CST-based device optimization, and techniques such as EPR, XAFS, XRD, SEM, and TEM to engineer next-generation electromagnetic shielding materials. Widely recognized for scientific impact, he has been listed among the world’s globally distinguished scientists by Elsevier and Stanford University and has received multiple Nano Research Top Paper Awards from Tsinghua University Press. His scholarly output includes an impressive h-index of X, with Y published documents and Z citations, reflecting the strong international reception of his research. He is also the inventor of multiple national patents related to advanced absorbing materials and functional composites, demonstrating his active role in translating scientific innovation into practical technological solutions.
Featured Publications
Guo, T., Feng, Y., Quan, B., Zhuang, Y., Sun, G., Xue, L., Fang, L., & Zhu, X. (2025). Enhanced dielectric losses in α-MnO₂ via protonation modulation. Chemical Communications.
Liu, J., Chen, Y., Wang, P., Shen, X., Jin, R., Lu, X., Huang, X., Wen, Y., & Quan, B. (2025). Four-state electrochromic smart devices for dynamic environmental adaptive camouflage with synergistic thermal–electromagnetic energy management. Journal of Materials Chemistry C.
Chen, Y., Quan, B., Lin, L., Xie, L., Jiao, H., Min, X., Yu, G., He, B., Lu, X., Liu, J., & others. (2025). Recyclable construction of multi-layer films with an impedance gradient design for high-efficiency electromagnetic absorption performance. Chemical Communications.
Bao, W., Shen, H., Wang, R., Qian, C., Wang, Y., Zhang, Y., Liu, H., Guo, C., Yu, F., Quan, B., & others. (2025). Atomic layer deposition of zinc-oxide layers for photoassisted lithium metal batteries. ACS Applied Materials & Interfaces.
Chen, Y., Quan, B., Liu, J., Lu, X., Lin, L., Shao, G., Wen, Y., Jin, R., Shen, X., & Huang, X. (2025). High-performance flexible microwave absorption films with dynamic adjustable macrostructures and alterable electromagnetic field polarizations. ACS Applied Materials & Interfaces.