Deterministic assembly of releasable single crystal silicon-metal oxide field-effect devices formed from bulk wafers

Tae Il Kim; Yei Hwan Jung; Hyun Joong Chung; Ki Jun Yu; Numair Ahmed; Christopher J. Corcoran; Jae Suk Park; Sung Hun Jin; John A. Rogers

doi:10.1063/1.4804139

Deterministic assembly of releasable single crystal silicon-metal oxide field-effect devices formed from bulk wafers

Tae Il Kim
, Yei Hwan Jung
, Hyun Joong Chung
, Ki Jun Yu
, Numair Ahmed
, Christopher J. Corcoran
, Jae Suk Park
, Sung Hun Jin
, John A. Rogers

Department of Chemical Engineering

University of Illinois at Urbana-Champaign
University of Wisconsin–Madison
University of Alberta

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

46 Scopus citations

Abstract

Deterministic assembly of ultrathin metal oxide-semiconductor field-effect transistors released from the surfaces of bulk wafers with (111) orientation provides a route to high quality electronics on nearly any type of substrate. Device parameters and bias stability characteristics from transistors on sheets of plastic confirm the effectiveness of the approach and the critical roles of thermally grown layers of silicon dioxide for the gate dielectrics and passivation layers. Systematic studies of the anisotropic etching processes used to release the devices illustrate capabilities into the sub-micron thickness regime, with beneficial effects on the bending stiffness and degree of bendability.

Original language	English
Article number	182104
Journal	Applied Physics Letters
Volume	102
Issue number	18
DOIs	https://doi.org/10.1063/1.4804139
State	Published - 6 May 2013

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10.1063/1.4804139

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title = "Deterministic assembly of releasable single crystal silicon-metal oxide field-effect devices formed from bulk wafers",

abstract = "Deterministic assembly of ultrathin metal oxide-semiconductor field-effect transistors released from the surfaces of bulk wafers with (111) orientation provides a route to high quality electronics on nearly any type of substrate. Device parameters and bias stability characteristics from transistors on sheets of plastic confirm the effectiveness of the approach and the critical roles of thermally grown layers of silicon dioxide for the gate dielectrics and passivation layers. Systematic studies of the anisotropic etching processes used to release the devices illustrate capabilities into the sub-micron thickness regime, with beneficial effects on the bending stiffness and degree of bendability.",

author = "Kim, \{Tae Il\} and \{Hwan Jung\}, Yei and Chung, \{Hyun Joong\} and \{Jun Yu\}, Ki and Numair Ahmed and Corcoran, \{Christopher J.\} and \{Suk Park\}, Jae and \{Hun Jin\}, Sung and Rogers, \{John A.\}",

year = "2013",

month = may,

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doi = "10.1063/1.4804139",

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journal = "Applied Physics Letters",

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T1 - Deterministic assembly of releasable single crystal silicon-metal oxide field-effect devices formed from bulk wafers

AU - Kim, Tae Il

AU - Hwan Jung, Yei

AU - Chung, Hyun Joong

AU - Jun Yu, Ki

AU - Ahmed, Numair

AU - Corcoran, Christopher J.

AU - Suk Park, Jae

AU - Hun Jin, Sung

AU - Rogers, John A.

PY - 2013/5/6

Y1 - 2013/5/6

N2 - Deterministic assembly of ultrathin metal oxide-semiconductor field-effect transistors released from the surfaces of bulk wafers with (111) orientation provides a route to high quality electronics on nearly any type of substrate. Device parameters and bias stability characteristics from transistors on sheets of plastic confirm the effectiveness of the approach and the critical roles of thermally grown layers of silicon dioxide for the gate dielectrics and passivation layers. Systematic studies of the anisotropic etching processes used to release the devices illustrate capabilities into the sub-micron thickness regime, with beneficial effects on the bending stiffness and degree of bendability.

AB - Deterministic assembly of ultrathin metal oxide-semiconductor field-effect transistors released from the surfaces of bulk wafers with (111) orientation provides a route to high quality electronics on nearly any type of substrate. Device parameters and bias stability characteristics from transistors on sheets of plastic confirm the effectiveness of the approach and the critical roles of thermally grown layers of silicon dioxide for the gate dielectrics and passivation layers. Systematic studies of the anisotropic etching processes used to release the devices illustrate capabilities into the sub-micron thickness regime, with beneficial effects on the bending stiffness and degree of bendability.

UR - https://www.scopus.com/pages/publications/84877741536

U2 - 10.1063/1.4804139

DO - 10.1063/1.4804139

M3 - Article

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VL - 102

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 18

M1 - 182104

ER -

Deterministic assembly of releasable single crystal silicon-metal oxide field-effect devices formed from bulk wafers

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