2-D devices may be possible soon
Washington: Rice University scientists have come closer to creating two-dimensional electronics with a process to make patterns in atom-thick layers that combine a conductor and an insulator.
The materials at play - graphene and hexagonal boron nitride - have been merged into sheets and built into a variety of patterns at nanoscale dimensions.
Rice introduced a technique to stitch the identically structured materials together nearly three years ago. Since then, the idea has received a lot of attention from researchers interested in the prospect of building 2-D, atomic-layer circuits, said Rice materials scientist Pulickel Ajayan, who is one of the authors of the new work.
In particular, Ajayan noted that Cornell University scientists reported an advance late last year on the art of making atomic-layer heterostructures through sequential growth schemes.
This week`s contribution by Rice offers manufacturers the possibility of shrinking electronic devices into even smaller packages.
Graphene-based electronics require similar, compatible 2-D materials for other components, and researchers have found hexagonal boron nitride (h-BN) works nicely as an insulator.
H-BN looks like graphene, with the same chicken-wire atomic array. The earlier work at Rice showed that merging graphene and h-BN via chemical vapor deposition (CVD) created sheets with pools of the two that afforded some control of the material`s electronic properties. Ajayan said at the time that the creation offered "a great playground for materials scientists."
He has since concluded that the area of two-dimensional materials beyond graphene "has grown significantly and will play out as one of the key exciting materials in the near future."
His prediction bears fruit in the new work, in which finely detailed patterns of graphene are laced into gaps created in sheets of h-BN. Combs, bars, concentric rings and even microscopic Rice Owls were laid down through a lithographic process. The interface between elements, seen clearly in scanning transmission electron microscope images taken at Oak Ridge National Laboratories, shows a razor-sharp transition from graphene to h-BN along a subnanometer line.
"This is not a simple quilt," Lou said. "It`s very precisely engineered. We can control the domain sizes and the domain shapes, both of which are necessary to make electronic devices."
The new technique also began with CVD. Lead author Zheng Liu, a Rice research scientist, and his colleagues first laid down a sheet of h-BN. Laser-cut photoresistant masks were placed over the h-BN, and exposed material was etched away with argon gas.
(A focused ion beam system was later used to create even finer patterns, down to 100-nanometer resolution, without masks.) After the masks were washed away, graphene was grown via CVD in the open spaces, where it bonded edge-to-edge with the h-BN. The hybrid layer could then be picked up and placed on any substrate.
While there`s much work ahead to characterize the atomic bonds where graphene and h-BN domains meet and to analyze potential defects along the boundaries, Liu`s electrical measurements proved the components` qualities remain intact.
"One important thing Zheng showed is that even by doing all kinds of growth, then etching, then regrowth, the intrinsic properties of these two materials are not affected," Lou said. "Insulators stay insulators; they`re not doped by the carbon. And the graphene still looks very good. That`s important, because we want to be sure what we`re growing is exactly what we want."
Liu said the next step is to place a third element, a semiconductor, into the 2-D fabric.
"We`re trying very hard to integrate this into the platform," he said. "If we can do that, we can build truly integrated in-plane devices."
That would give new options to manufacturers toying with the idea of flexible electronics, he said.
The new work appeared this week in Nature Nanotechnology.
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