The University of Osaka | Japan
Prof. Dr. Makoto Kambara is a highly distinguished Japanese materials scientist and global leader in plasma materials engineering, currently serving as a Full Professor at Osaka University, where he is recognized for his pioneering research on plasma–surface interactions, advanced coating technologies, and interfacial control of functional materials for high-performance industrial and energy applications. With an exceptional academic record and international influence, Prof. Kambara has authored 112 scientific documents indexed in major scholarly databases, establishing a strong research profile reflected through 1,854 citations received from 1,373 scientific documents, and demonstrating a significant h-index of 24, representing sustained academic impact across the fields of plasma engineering, thin film technology, semiconductor processing, and nanostructured surface modification. His research has enabled advancements in environmentally efficient manufacturing, next-generation plasma processing, and material optimization for electronics, aerospace, and biomedical engineering. Prof. Kambara’s academic journey includes completing his Ph.D. in Engineering of Metals at The University of Tokyo followed by research appointments at the University of Cambridge, where he advanced his expertise in applied plasma engineering and industrial materials processing. He later returned to Japan, contributing extensively as a Lecturer, Associate Professor, and now Full Professor, playing a leading role in education, industrial collaboration, and high-impact international research initiatives. His contributions have been widely recognized through prestigious distinctions, including the Plasma Electronics Award from JSAP, an Achievement Award from JOM, and a Best Teaching Award from the University of Tokyo. A committed academic mentor and scientific leader, he continues to guide graduate researchers, contribute to global research networks, and deliver transformative innovations that improve material efficiency and technological sustainability. Prof. Dr. Makoto Kambara is internationally regarded as a visionary scholar whose scientific contributions have significantly shaped modern materials science and advanced manufacturing technologies.
Featured Publications
Matsuda, T., Matsuda, T., Kambara, M., & Hirose, A. (2025). Current-assisted low-temperature silver sinter bonding to silicon carbide by utilizing ion migration. Materials & Design, 252, 113780.
Kambara, M., Babu, N. H., Sadki, E. S., Cooper, J. R., Minami, H., Cardwell, D. A., … (2001). High intergranular critical currents in metallic MgB₂ superconductor. Superconductor Science and Technology, 14(4), L5.
Eisterer, M., Zehetmayer, M., Tönies, S., Weber, H. W., Kambara, M., Babu, N. H., … (2002). Neutron irradiation of MgB₂ bulk superconductors. Superconductor Science and Technology, 15(2), L9.
Panagopoulos, C., Rainford, B. D., Xiang, T., Scott, C. A., Kambara, M., & Inoue, I. H. (2001). Penetration depth measurements in MgB₂: Evidence for unconventional superconductivity. Physical Review B, 64(9), 094514.
Kambara, M., Umeda, T., Tagami, M., Yao, X., Goodilin, E. A., & Shiohara, Y. (1998). Construction of the quasi-ternary phase diagram in the NdO₁.₅–BaO–CuOₓ system in an air atmosphere: Part I, equilibrium tie lines in the Nd₁₊ₓBa₂₋ₓCu₃O₆₊δ solid solution. Journal of the American Ceramic Society, 81(8), 2116–2124.