Issue 43, 2023

Integrated 4-terminal single-contact nanoelectromechanical relays implemented in a silicon-on-insulator foundry process

Abstract

Integrated nanoelectromechanical (NEM) relays can be used instead of transistors to implement ultra-low power logic circuits, due to their abrupt turn off characteristics and zero off-state leakage. Further, realizing circuits with 4-terminal (4-T) NEM relays enables significant reduction in circuit device count compared to conventional transistor circuits. For practical 4-T NEM circuits, however, the relays need to be miniaturized and integrated with high-density back-end-of-line (BEOL) interconnects, which is challenging and has not been realized to date. Here, we present electrostatically actuated silicon 4-T NEM relays that are integrated with multi-layer BEOL metal interconnects, implemented using a commercial silicon-on-insulator (SOI) foundry process. We demonstrate 4-T switching and the use of body-biasing to reduce pull-in voltage of a relay with a 300 nm airgap, from 15.8 V to 7.8 V, consistent with predictions of the finite-element model. Our 4-T NEM relay technology enables new possibilities for realizing NEM-based circuits for applications demanding harsh environment computation and zero standby power, in industries such as automotive, Internet-of-Things, and aerospace.

Graphical abstract: Integrated 4-terminal single-contact nanoelectromechanical relays implemented in a silicon-on-insulator foundry process

Associated articles

Supplementary files

Article information

Article type
Communication
Submitted
14 Jul 2023
Accepted
12 Oct 2023
First published
13 Oct 2023
This article is Open Access
Creative Commons BY license

Nanoscale, 2023,15, 17335-17341

Integrated 4-terminal single-contact nanoelectromechanical relays implemented in a silicon-on-insulator foundry process

Y. Li, E. Worsey, S. J. Bleiker, P. Edinger, M. K. Kulsreshath, Q. Tang, A. Y. Takabayashi, N. Quack, P. Verheyen, W. Bogaerts, K. B. Gylfason, D. Pamunuwa and F. Niklaus, Nanoscale, 2023, 15, 17335 DOI: 10.1039/D3NR03429A

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