It also establishes molybdenite as a competitor to graphene, the atom-thick sheets of carbon believed capable of solving silicon's shortcomings, and whose creators received a Nobel prize in 2010.
Silicon technology is in trouble because, for years, performance has been improved by shrinking the size of the features on silicon chips, but there is only so much more shrinking that can be done. Chips will go on sale this year with features as small as 22 nanometers, and at very small scales, silicon technology faces problems like oxidation, which reduces performance and causes energy losses.
Molybdenite, or MoS2, could allow electronics to get smaller still without such problems, says Andras Kis, who led a team at the Swiss Federal Institute of Technology in Lausanne, Switzerland, to make the first integrated logic circuits, the basis of computer chips, using molybdenite sheets.
Sheets of the material 0.65 nanometers thick and roughly 10 microns across were pulled from crystals of naturally occurring molybdenite. The sheets were made into transistors by laying them onto a silicon wafer and adding gold electrical connections. The linked up transistors functioned as logic gates, the basis of digital computing components.
Researchers seeking alternatives to silicon have been working with graphene for years, making, for example, prototype transistors that operate at much higher speeds than silicon ones. However, molybdenite has a crucial advantage, says Kis. "The nice thing about our material is that sometimes it can conduct current, sometimes it doesn't."
To do the job of silicon in electronics, a material needs to be able to flip between conducting and nonconducting to signal digital 1s and 0s, something made possible by an electronic property known as a "band gap." Molybdenite naturally has a band gap suitable for use in electronics, while graphene does not. Giving graphene a band gap involves complex techniques like layering sheets of the material, cooling it to low temperatures, or cutting it into very precise shapes.
New material on the block: Atom-thick sheets of molybdenite at the end of these gold leads act as transistors.
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