Researchers supported by a National Science Foundation (NSF) nanoscale interdisciplinary research team award and three Materials Research Science and Engineering Centers at Cornell University, Penn State University and Northwestern University recently added ferroelectric capability to material used in common computer transistors, a feat scientists tried to achieve for more than half a century. They reported their findings in the April 17 journal Science.

Ferroelectric materials provide low-power, high-efficiency electronic memory. Smart cards use the technology to instantly reveal and update stored information when waved before a reader. A computer with this capability could instantly provide information and other data to the user.

Researchers led by Cornell University materials scientist Darrell Schlom took strontium titanate, a normally non-ferroelectric variant of the ferroelectric material used in smart cards, and deposited it on silicon--the principal component of most semiconductors and integrated circuits--in such a way that the silicon squeezed it into a ferroelectric state.

"It's great to see fundamental research on ordered layering of materials, or epitaxial growth, under strained conditions pay off in such a practical manner, particularly as it relates to ultra-thin ferroelectrics" said Lynnette Madsen, the NSF program director responsible for the Nanoscale Interdisciplinary Research Team award.

The result could pave the way for a next-generation of memory devices that are lower power, higher speed and more convenient to use. For everyday computer users, it could mean no more waiting for the operating system to come online or to access memory slowly from the hard drive.

"Several hybrid transistors have been proposed specifically with ferroelectrics in mind," said Schlom. "By creating a ferroelectric directly on silicon, we are bringing this possibility closer to realization."

More research is needed to achieve a ferroelectric transistor that would make "instant on" computing a reality, but having the materials in direct contact, free of intervening reaction layers, is an important step.

The paper's first author, Maitri P. Warusawithana, is a postdoctoral associate in Schlom's lab. The research team also includes scientists at the National Institute of Standards and Technology, Motorola Corp., Ames Laboratory and Intel Corp. Share This Article With Planet Earth

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