Process integration and future outlook of 2D transistors

Kevin P. O’Brien; Carl H. Naylor; Chelsey Dorow; Kirby Maxey; Ashish Verma Penumatcha; Andrey Vyatskikh; Ting Zhong; Ande Kitamura; Sudarat Lee; Carly Rogan; Wouter Mortelmans; Mahmut Sami Kavrik; Rachel Steinhardt; Pratyush Buragohain; Sourav Dutta; Tristan Tronic; Scott Clendenning; Paul Fischer; Ernisse S. Putna; Marko Radosavljevic; Matt Metz; Uygar Avci

doi:10.1038/s41467-023-41779-5

Nature Communications (Oct 2023)

Process integration and future outlook of 2D transistors

Kevin P. O’Brien,
Carl H. Naylor,
Chelsey Dorow,
Kirby Maxey,
Ashish Verma Penumatcha,
Andrey Vyatskikh,
Ting Zhong,
Ande Kitamura,
Sudarat Lee,
Carly Rogan,
Wouter Mortelmans,
Mahmut Sami Kavrik,
Rachel Steinhardt,
Pratyush Buragohain,
Sourav Dutta,
Tristan Tronic,
Scott Clendenning,
Paul Fischer,
Ernisse S. Putna,
Marko Radosavljevic,
Matt Metz,
Uygar Avci

Affiliations

Kevin P. O’Brien: Intel Corporation, Components Research
Carl H. Naylor: Intel Corporation, Components Research
Chelsey Dorow: Intel Corporation, Components Research
Kirby Maxey: Intel Corporation, Components Research
Ashish Verma Penumatcha: Intel Corporation, Components Research
Andrey Vyatskikh: Intel Corporation, Components Research
Ting Zhong: Intel Corporation, Components Research
Ande Kitamura: Intel Corporation, Components Research
Sudarat Lee: Intel Corporation, Components Research
Carly Rogan: Intel Corporation, Components Research
Wouter Mortelmans: Intel Corporation, Components Research
Mahmut Sami Kavrik: Intel Corporation, Components Research
Rachel Steinhardt: Intel Corporation, Components Research
Pratyush Buragohain: Intel Corporation, Components Research
Sourav Dutta: Intel Corporation, Components Research
Tristan Tronic: Intel Corporation, Components Research
Scott Clendenning: Intel Corporation, Components Research
Paul Fischer: Intel Corporation, Components Research
Ernisse S. Putna: Intel Corporation, Components Research
Marko Radosavljevic: Intel Corporation, Components Research
Matt Metz: Intel Corporation, Components Research
Uygar Avci: Intel Corporation, Components Research

DOI: https://doi.org/10.1038/s41467-023-41779-5
Journal volume & issue: Vol. 14, no. 1
pp. 1 – 5

Abstract

Read online

The academic and industrial communities have proposed two-dimensional (2D) transition metal dichalcogenide (TMD) semiconductors as a future option to supplant silicon transistors at sub-10nm physical gate lengths. In this Comment, we share the recent progress in the fabrication of complementary metal-oxide-semiconductor (CMOS) devices based on stacked 2D TMD nanoribbons and specifically highlight issues that still need to be resolved by the 2D community in five crucial research areas: contacts, channel growth, gate oxide, variability, and doping. While 2D TMD transistors have great potential, more research is needed to understand the physical interactions of 2D materials at the atomic scale.

Published in Nature Communications

ISSN: 2041-1723 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/ncomms/

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