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    Ideal 2D transistors created from ultra clean damage free fabrication platform

    An ideal transistor made from a 2D material stack has been demonstrated by the Columbia Engineering researchers. The material stack is made with only a two-atom thick semiconducting layer, by developing a completely clean and damage-free fabrication process. Their method shows vastly improved performance compared to 2D semiconductors fabricated with a conventional process, and could provide a scalable platform for creating ultra-clean devices in the future.

    There have been a lot of advances driven in computing, memory, communications and lighting technologies since mid-20th century. These advances are made because of semiconductors, which act as the basic building blocks of transistors, lasers, LEDs and microprocessors.

    The recent discovery of the two-dimensional materials, featuring several superlative properties, are potentially advancing these technologies, but the creation of 2D devices with both, better electrical contacts and stable performance has been proved challenging.

    “Making devices out of 2D materials is a messy business,” says James Teherani, assistant professor of electrical engineering. “Devices vary wildly from run to run and often degrade so fast that you see performance diminish while you’re still measuring them.”

    Having grown tired of the inconsistent results, Teherani’s team set out to develop a better way to make stable devices. He explains, “We decided to separate the pristine device from the dirty fabrication processes that lead to variability.”

    As shown in this new study, Teherani and his colleagues developed a two-step, ultra-clean nanofabrication process that separates the messy steps of fabrication, those that involve dirty metallization, chemicals, and polymers used to form electrical connections to the device, from the active semiconductor layer. Once they complete the messy fabrication, they could pick up the contacts and transfer them onto the clean active device layer, preserving the integrity of both layers.

    “The thinness of these semiconductors is a blessing and a curse,” says Teherani. “While the thinness allows them to be transparent and to be picked up and placed wherever you want them, the thinness also means there’s nearly zero volume, the device is almost entirely surface. Because of this, any surface dirt or contamination will really degrade a device.”

    Currently, most devices are not encapsulated with a layer that protects the surface and contacts from contamination during fabrication. Teherani’s team showed that their method can now not only protect the semiconductor layer so that they don’t see performance degradation over time, but it can also yield high-performance devices.

    Teherani collaborated with Jim Hone, Wang Fong-Jen Professor of Mechanical Engineering, making use of the fabrication and analysis facilities of the Columbia Nano Initiative and the National Science Foundation-funded Materials Research Science and Engineering Center at Columbia. The team made the transferred contacts from metal embedded in insulating hexagonal boron nitride (h-BN) outside a glovebox and then dry-transferred the contact layer onto the 2D semiconductor, which was kept pristine inside a nitrogen glovebox. This process prevents direct-metallization-induced damage while simultaneously providing encapsulation to protect the device.

    Now that the researchers have developed a stable, repeatable process, they are using the platform to make devices that can move out of the lab into real-world engineering problems.

    “The development of high-performance 2D devices requires advances in the semiconductor materials from which they are made,” Teherani adds. “More precise tools like ours will enable us to build more complex structures with potentially greater functionality and better performance.”

    ELE Times Research Desk
    ELE Times Research Deskhttps://www.eletimes.com
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