cornellcas:Like paper, graphene twists, folds into nanoscale machinesThe art of kirigami involves

cornellcas: Like paper, graphene twists, folds into nanoscale machinesThe art of kirigami involves cutting paper into intricate designs, like snowflakes. Cornell physicists are kirigami artists, too, but their paper is only an atom thick, and could become some of the smallest machines the world has ever known.A research collaboration led by Paul McEuen, the John A. Newman Professor of Physical Science and director of the Kavli Institute at Cornell for Nanoscale Science (KIC), is taking kirigami down to the nanoscale. Their template is graphene, single atom-thick sheets of hexagonally bonded carbon, famous for being ultra thin, ultra strong and a perfect electron conductor. In the journal Nature July 29, they demonstrate the application of kirigami on 10-micron sheets of graphene (a human hair is about 70 microns thick), which they can cut, fold, twist and bend, just like paper.Graphene and other thin materials are extremely sticky at that scale, so the researchers used an old trick to make it easier to manipulate: They suspended it in water and added surfactants to make it slippery, like soapy water. They also made gold tab “handles” so they could grab the ends of the graphene shapes. Co-author Arthur Barnard, also a Cornell physics graduate student, figured out how to manipulate the graphene this way.“Cornell was a particularly great place to do this sort of work,” said the study’s first author, Melina Blees, a former physics graduate student and now a postdoctoral researcher at the University of Chicago. “I found an incredibly warm welcome in the art department, and the scientists were always genuinely excited about cross-disciplinary work in a way that’s still pretty rare,” she said.Read more from Wired, Quartz and the BBC. -- source link

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