Component Management

2D boron may be best for flexible electronics

5th October 2016
Enaie Azambuja
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The Rice lab of theoretical physicist Boris Yakobson and experimental collaborators observed examples of naturally undulating, metallic borophene, an atom-thick layer of boron, and suggested that transferring it onto an elastic surface would preserve the material's stretchability along with its useful electronic properties. Highly conductive graphene has promise for flexible electronics, Yakobson said, but it is too stiff for devices that also need to stretch, compress or even twist.

But borophene deposited on a silver substrate develops nanoscale corrugations. Weakly bound to the silver, it could be moved to a flexible surface for use. The research appears this month in the American Chemical Society journal Nano Letters.

Rice collaborated with experimentalists at Argonne National Laboratory and Northwestern University to study borophene, which has been made in small quantities. Under the microscope, borophene displays corrugations that demonstrate its wavy nature, meaning it can be highly stretched once removed from the substrate, or reattached to a soft one, Yakobson said.

The Rice group builds computer simulations to analyse the properties of materials from the atoms up. Simulations by first author Zhuhua Zhang, a postdoctoral researcher in Yakobson's group, showed that hexagonal vacancies in borophene help soften the material to facilitate its corrugated form.

"Borophene is metallic in its typical state, with strong electron-phonon coupling to support possible superconductivity, and a rich band structure that contains Dirac cones, as in graphene," Yakobson said.

There is a hitch: Borophene needs the underlying structure to make it wavy. When grown on a featureless surface, its natural form resembles graphene, the flat, chicken-wire arrays of carbon atoms. Zhang said borophene is better seen as a triangular lattice with periodic arrays of hexagonal vacancies.

Borophene prefers to be flat because that's where its energy is lowest, Yakobson said. But surprisingly, when grown on silver, borophene adopts its accordion-like form while silver reconstructs itself to match. The corrugation can be retained by "re-gluing" boron onto another substrate.

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