In-situ synthesis of carbon nanotube-graphite electronic devices and their integrations onto surfaces of live plants and insects

Kyongsoo Lee; Jihun Park; Mi Sun Lee; Joohee Kim; Byung Gwan Hyun; Dong Jun Kang; Kyungmin Na; Chang Young Lee; Franklin Bien; Jang Ung Park

doi:10.1021/nl500513n

In-situ synthesis of carbon nanotube-graphite electronic devices and their integrations onto surfaces of live plants and insects

Kyongsoo Lee, Jihun Park, Mi Sun Lee, Joohee Kim, Byung Gwan Hyun, Dong Jun Kang, Kyungmin Na, Chang Young Lee, Franklin Bien, Jang Ung Park

Department of Materials Science and Engineering

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

83 Citations (Scopus)

Abstract

Here we report an unconventional approach for the single-step synthesis of monolithically integrated electronic devices based on multidimensional carbon structures. Integrated arrays of field-effect transistors and sensors composed of carbon nanotube channels and graphitic electrodes and interconnects were formed directly from the synthesis. These fully integrated, all-carbon devices are highly flexible and can be transferred onto both planar and nonplanar substrates, including papers, clothes, and fingernails. Furthermore, the sensor network can be interfaced with inherent life forms in nature for monitoring environmental conditions. Examples of significant applications are the integration of the devices to live plants or insects for real-time, wireless sensing of toxic gases.

Original language	English
Pages (from-to)	2647-2654
Number of pages	8
Journal	Nano letters
Volume	14
Issue number	5
DOIs	https://doi.org/10.1021/nl500513n
Publication status	Published - 2014 May 14

All Science Journal Classification (ASJC) codes

Bioengineering
Chemistry(all)
Materials Science(all)
Condensed Matter Physics
Mechanical Engineering

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10.1021/nl500513n

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title = "In-situ synthesis of carbon nanotube-graphite electronic devices and their integrations onto surfaces of live plants and insects",

abstract = "Here we report an unconventional approach for the single-step synthesis of monolithically integrated electronic devices based on multidimensional carbon structures. Integrated arrays of field-effect transistors and sensors composed of carbon nanotube channels and graphitic electrodes and interconnects were formed directly from the synthesis. These fully integrated, all-carbon devices are highly flexible and can be transferred onto both planar and nonplanar substrates, including papers, clothes, and fingernails. Furthermore, the sensor network can be interfaced with inherent life forms in nature for monitoring environmental conditions. Examples of significant applications are the integration of the devices to live plants or insects for real-time, wireless sensing of toxic gases.",

author = "Kyongsoo Lee and Jihun Park and Lee, {Mi Sun} and Joohee Kim and Hyun, {Byung Gwan} and Kang, {Dong Jun} and Kyungmin Na and Lee, {Chang Young} and Franklin Bien and Park, {Jang Ung}",

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AU - Lee, Kyongsoo

AU - Park, Jihun

AU - Lee, Mi Sun

AU - Kim, Joohee

AU - Hyun, Byung Gwan

AU - Kang, Dong Jun

AU - Na, Kyungmin

AU - Lee, Chang Young

AU - Bien, Franklin

AU - Park, Jang Ung

PY - 2014/5/14

Y1 - 2014/5/14

N2 - Here we report an unconventional approach for the single-step synthesis of monolithically integrated electronic devices based on multidimensional carbon structures. Integrated arrays of field-effect transistors and sensors composed of carbon nanotube channels and graphitic electrodes and interconnects were formed directly from the synthesis. These fully integrated, all-carbon devices are highly flexible and can be transferred onto both planar and nonplanar substrates, including papers, clothes, and fingernails. Furthermore, the sensor network can be interfaced with inherent life forms in nature for monitoring environmental conditions. Examples of significant applications are the integration of the devices to live plants or insects for real-time, wireless sensing of toxic gases.

AB - Here we report an unconventional approach for the single-step synthesis of monolithically integrated electronic devices based on multidimensional carbon structures. Integrated arrays of field-effect transistors and sensors composed of carbon nanotube channels and graphitic electrodes and interconnects were formed directly from the synthesis. These fully integrated, all-carbon devices are highly flexible and can be transferred onto both planar and nonplanar substrates, including papers, clothes, and fingernails. Furthermore, the sensor network can be interfaced with inherent life forms in nature for monitoring environmental conditions. Examples of significant applications are the integration of the devices to live plants or insects for real-time, wireless sensing of toxic gases.

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In-situ synthesis of carbon nanotube-graphite electronic devices and their integrations onto surfaces of live plants and insects

Abstract

All Science Journal Classification (ASJC) codes

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