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Osaka University researchers used optical trapping for the first time inside an ultracold superfluid made of helium. They were able to trap and monitor ...

Osaka University researchers directly monitored the increase in temperature that occurs when ionic current passes through a nanopore. By using a thermocouple, ...

Osaka University researchers reported an acoustic method for the real time tracking of metal deposition in the formation of bimetallic core–shell ...

A team including researchers from Osaka University has created a nanocellulose paper semiconductor with both trans-scalability of structural design and wide ...

Osaka University researchers show that silicon nanoparticles are attracted to vortices in superfluid helium. This allowed them to visualize the process of ...

Researchers from Osaka University have demonstrated a process for improving the adhesion of copper foil to polytetrafluoroethylene (PTFE) surfaces. The ...

Researchers from Osaka University and collaborating partners prepared an atomically ordered and ultra-thin film of magnetite. This film exhibited conductive ...

Osaka University researchers have grown high-quality magnetite (Fe3O4) thin films on hexagonal boron nitride substrates (hBN). The physical properties of the ...