55.3

Yoshiya Akagi

Hamamatsu University School of Medicine

Researcher Yoshiya Akagi has made significant contributions to materials science through various breakthroughs. In organic-inorganic hybrid perovskite thin-film fabrication, Akagi's work employing Langmuir-Blodgett and intercalation techniques enables the creation of two-dimensional layered structures with potential applications in electronics and optoelectronics. Additionally, their research on diamond-rich crystalline nanosheets seeded with a Langmuir monolayer of arachidic acid on water has expanded our understanding of surface chemistry and nanostructure formation. Furthermore, Akagi's work on spherulitic crystallization in Langmuir-Blodgett films and superconducting materials, including Pb-based cuprates and Ru-1232 compounds, showcases their expertise in synthesizing novel materials with unique properties, poised to impact fields such as energy storage, electronics, and advanced materials research.

High-Temperature SuperconductivityCuprate SuperconductorsSuperconductivity
Commercial signal 55.1
Scientific signal 57.4
Social signal 54.9
Papers 7
0 Patent-to-paper cites
25 Paper cites

scientifiq.ai is an experimental platform. The platform relies on open source data and it may contain errors. Its primary goal is to advance scientific research on innovation.