Nanowires may help in developing ultrasmall transistors
Washington, November 27 (ANI): After a key discovery by scientists, a new generation of ultrasmall transistors and more powerful computer chips using tiny structures called semiconducting nanowires are closer to reality.
The researchers, from IBM, Purdue University and the University of California at Los Angeles, have learned how to create nanowires with layers of different materials that are sharply defined at the atomic level, which is a critical requirement for making efficient transistors out of the structures.
"Having sharply defined layers of materials enables you to improve and control the flow of electrons and to switch this flow on and off," said Eric Stach, an associate professor of materials engineering at Purdue.
Electronic devices are often made of "heterostructures," meaning they contain sharply defined layers of different semiconducting materials, such as silicon and germanium.
Until now, however, researchers have been unable to produce nanowires with sharply defined silicon and germanium layers.
Instead, this transition from one layer to the next has been too gradual for the devices to perform optimally as transistors.
The new findings point to a method for creating nanowire transistors.
Whereas conventional transistors are made on flat, horizontal pieces of silicon, the silicon nanowires are "grown" vertically.
"Because of this vertical structure, they have a smaller footprint, which could make it possible to fit more transistors on an integrated circuit, or chip," Stach said.
"But first we need to learn how to manufacture nanowires to exacting standards before industry can start using them to produce transistors," he said.
The researchers used an instrument called a transmission electron microscope to observe the nanowire formation.
Tiny particles of a gold-aluminum alloy were first heated and melted inside a vacuum chamber, and then silicon gas was introduced into the chamber.
As the melted gold-aluminum bead absorbed the silicon, it became "supersaturated" with silicon, causing the silicon to precipitate and form wires.
Each growing wire was topped with a liquid bead of gold-aluminum so that the structure resembled a mushroom.
Then, the researchers reduced the temperature inside the chamber enough to cause the gold-aluminum cap to solidify, allowing germanium to be deposited onto the silicon precisely and making it possible to create a heterostructure of silicon and germanium.
"The cycle could be repeated, switching the gases from germanium to silicon as desired to make specific types of heterostructures," Stach said.
Having a heterostructure makes it possible to create a germanium "gate" in each transistor, which enables devices to switch on and off. (ANI)
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