Houghton, Michigan – The road to more versatile wearable technology is dotted with iron. Specifically, quantum dots of iron arranged on boron nitride nanotubes (BNNTs). The new material is the subject of a study published in Scientific Reports this morning, led by Yoke Khin Yap, a professor of physics at Michigan Technological University.
Yap says the iron-studded BNNTs are pushing the boundaries of electronics hardware. The transistors modulating electron flow need an upgrade.
“Look beyond semiconductors,” he says, explaining that materials like silicon semiconductors tend to overheat, can only get so small and leak electric current.
The key to revamping the fundamental base of transistors is creating a series of stepping-stones that use quantum tunneling.
Check out how quantum tunneling on the BNNTs work on this YouTube video and read the full story on mtu.edu/news.
You can reach Yoke Khin Yap at ykyap@mtu.edu or 906-487-2900.
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