CARBON is a dirty word. We burn too much of it, producing billions of tonnes of carbon dioxide that threatens to wreck our planet's climate for generations to come. Before that it was the villain of the piece in the guise of the soot that poured from factory chimneys and turned cities black. It has a lot to live down.
Now our long-time enemy could be on the brink of becoming our high-tech best friend. As we learn to shape carbon on the nanoscale - into tubes and sheets, balls and ribbons - entirely new and unexpected vistas are opening up. The carbon atoms that were forged in the furnace of the universe's stars can be woven together into materials that may help gather energy from our own star. Similar materials promise to make our electronic world run with unprecedented efficiency, and may even hold the secret to eking out precious reserves of oil.
Carbon's potential stems from the fact that it is multitalented. Collections of carbon atoms will happily assemble themselves into a multitude of structures, from diamond to graphite, but these familiar forms are just the beginning. In the past few decades we have learned about the soccer-ball-shaped spheres called buckyballs, soon followed by the microscopic rolls of chicken wire we know as carbon nanotubes. Now they have been joined by graphene, sheets of carbon that are just one atom thick.
Of these many intriguing structures, graphene is causing the biggest stir. This is partly because of its unusual combination of properties: its two-dimensional honeycomb lattice of carbon atoms combines fantastic electrical conductivity with a strength tens of times that of steel in a material that is transparent to visible light. Best of all, we have finally learned how to make it.
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