Transferrable single-crystal silicon nanomembranes and their application to flexible microwave systems

Jung Hun Seo; Hao Chih Yuan; Lei Sun; Weidong Zhou; Zhenqiang Ma

doi:10.1080/15980316.2011.568713

Transferrable single-crystal silicon nanomembranes and their application to flexible microwave systems

Jung Hun Seo
, Hao Chih Yuan
, Lei Sun
, Weidong Zhou
, Zhenqiang Ma

Department of Materials Design and Innovation

University of Wisconsin-Madison
University of Texas at Arlington

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

This paper summarizes the recent fabrication and characterizations of flexible high-speed radio frequency (RF) transistors, PIN-diode single-pole single-throw switches, as well as flexible inductors and capacitors, based on single-crystalline Si nanomembranes transferred on polyethylene terephthalate substrates. Flexible thin-film transistors (TFTs) on plastic substrates have reached RF operation speed with a record cut-off/maximum oscillation frequency (f _T/f _max) values of 3.8/12 GHz. PIN diode switches exhibit excellent ON/OFF behaviors at high RF frequencies. Flexible inductors and capacitors compatible with high-speed TFT fabrication show resonance frequencies (f _res) up to 9.1 and 13.5 GHz, respectively. Robust mechanical characteristics were also demonstrated with these high-frequency passives components.

Original language	English
Pages (from-to)	109-113
Number of pages	5
Journal	Journal of Information Display
Volume	12
Issue number	2
DOIs	https://doi.org/10.1080/15980316.2011.568713
State	Published - Jun 2011

Keywords

RF switches
flexible electronics
inductors and capacitors
nanomembrane
radio frequency thin-film transistors

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10.1080/15980316.2011.568713

Cite this

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title = "Transferrable single-crystal silicon nanomembranes and their application to flexible microwave systems",

abstract = "This paper summarizes the recent fabrication and characterizations of flexible high-speed radio frequency (RF) transistors, PIN-diode single-pole single-throw switches, as well as flexible inductors and capacitors, based on single-crystalline Si nanomembranes transferred on polyethylene terephthalate substrates. Flexible thin-film transistors (TFTs) on plastic substrates have reached RF operation speed with a record cut-off/maximum oscillation frequency (f T/f max) values of 3.8/12 GHz. PIN diode switches exhibit excellent ON/OFF behaviors at high RF frequencies. Flexible inductors and capacitors compatible with high-speed TFT fabrication show resonance frequencies (f res) up to 9.1 and 13.5 GHz, respectively. Robust mechanical characteristics were also demonstrated with these high-frequency passives components.",

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AU - Seo, Jung Hun

AU - Yuan, Hao Chih

AU - Sun, Lei

AU - Zhou, Weidong

AU - Ma, Zhenqiang

PY - 2011/6

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AB - This paper summarizes the recent fabrication and characterizations of flexible high-speed radio frequency (RF) transistors, PIN-diode single-pole single-throw switches, as well as flexible inductors and capacitors, based on single-crystalline Si nanomembranes transferred on polyethylene terephthalate substrates. Flexible thin-film transistors (TFTs) on plastic substrates have reached RF operation speed with a record cut-off/maximum oscillation frequency (f T/f max) values of 3.8/12 GHz. PIN diode switches exhibit excellent ON/OFF behaviors at high RF frequencies. Flexible inductors and capacitors compatible with high-speed TFT fabrication show resonance frequencies (f res) up to 9.1 and 13.5 GHz, respectively. Robust mechanical characteristics were also demonstrated with these high-frequency passives components.

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KW - inductors and capacitors

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KW - radio frequency thin-film transistors

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Transferrable single-crystal silicon nanomembranes and their application to flexible microwave systems

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Keywords

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