Shrinking pores
A new study by chemists and engineers at the University of Toronto describes a nanoscale material they have created that could lead to further developments in microelectronics or drug delivery systems.

A new study by chemists and engineers at the
describes a nanoscale material they've created that could help satisfy society's hunger for smaller digital devices and cellphones, and could even lead to new methods for delivering medications via skin patches.
The material, known as periodic mesoporous organosilica (PMO), is a thin film interspersed with pores two-billionths of a metre across. The team created it by mixing an organosilica precursor (silica glass, containing organic groups) with a surfactant, which causes the organosilica to self-assemble into a nanostructure.
The scientists then washed away the surfactant to leave a nanoporous material. When they examined the thin film that remained, they discovered that it made an excellent insulator that could be used to separate tiny wires inside microelectronics.
"It demonstrates how creative chemistry can lead to really interesting engineering, it's a good marriage," said Benjamin Hatton, who led the work while he was a PhD candidate working with both the Departments of Chemistry, with supervisor Professor Geoffrey Ozin, and Materials Science and Engineering, with supervisor Professor Doug Perovic. "Technology can develop in unexpected ways, and what we've found here could lead to developments in microelectronics or drug delivery systems."
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