Laser–Material Interactions for Flexible Applications

Daniel J. Joe; Seungjun Kim; Jung Hwan Park; Dae Yong Park; Han Eol Lee; Tae Hong Im; Insung Choi; Rodney S. Ruoff; Keon Jae Lee

doi:10.1002/adma.201606586

Laser–Material Interactions for Flexible Applications

Daniel J. Joe
, Seungjun Kim
, Jung Hwan Park
, Dae Yong Park
, Han Eol Lee
, Tae Hong Im
, Insung Choi
, Rodney S. Ruoff
, Keon Jae Lee^*

^*Corresponding author for this work

Electronic Materials Engineering

Korea Advanced Institute of Science and Technology
Institute for Basic Science
Ulsan National Institute of Science and Technology

Research output: Contribution to journal › Journal article › peer-review

168 Scopus citations

Abstract

The use of lasers for industrial, scientific, and medical applications has received an enormous amount of attention due to the advantageous ability of precise parameter control for heat transfer. Laser-beam-induced photothermal heating and reactions can modify nanomaterials such as nanoparticles, nanowires, and two-dimensional materials including graphene, in a controlled manner. There have been numerous efforts to incorporate lasers into advanced electronic processing, especially for inorganic-based flexible electronics. In order to resolve temperature issues with plastic substrates, laser–material processing has been adopted for various applications in flexible electronics including energy devices, processors, displays, and other peripheral electronic components. Here, recent advances in laser–material interactions for inorganic-based flexible applications with regard to both materials and processes are presented.

Original language	English
Article number	1606586
Journal	Advanced Materials
Volume	29
Issue number	26
DOIs	https://doi.org/10.1002/adma.201606586
State	Published - 2017.07.12

Keywords

flexible electronics
lasers
laser–material interactions

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10.1002/adma.201606586

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title = "Laser–Material Interactions for Flexible Applications",

abstract = "The use of lasers for industrial, scientific, and medical applications has received an enormous amount of attention due to the advantageous ability of precise parameter control for heat transfer. Laser-beam-induced photothermal heating and reactions can modify nanomaterials such as nanoparticles, nanowires, and two-dimensional materials including graphene, in a controlled manner. There have been numerous efforts to incorporate lasers into advanced electronic processing, especially for inorganic-based flexible electronics. In order to resolve temperature issues with plastic substrates, laser–material processing has been adopted for various applications in flexible electronics including energy devices, processors, displays, and other peripheral electronic components. Here, recent advances in laser–material interactions for inorganic-based flexible applications with regard to both materials and processes are presented.",

keywords = "flexible electronics, lasers, laser–material interactions",

author = "Joe, \{Daniel J.\} and Seungjun Kim and Park, \{Jung Hwan\} and Park, \{Dae Yong\} and Lee, \{Han Eol\} and Im, \{Tae Hong\} and Insung Choi and Ruoff, \{Rodney S.\} and Lee, \{Keon Jae\}",

note = "Publisher Copyright: {\textcopyright} 2017 WILEY-VCH Verlag GmbH \& Co. KGaA, Weinheim",

year = "2017",

month = jul,

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doi = "10.1002/adma.201606586",

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T1 - Laser–Material Interactions for Flexible Applications

AU - Joe, Daniel J.

AU - Kim, Seungjun

AU - Park, Jung Hwan

AU - Park, Dae Yong

AU - Lee, Han Eol

AU - Im, Tae Hong

AU - Choi, Insung

AU - Ruoff, Rodney S.

AU - Lee, Keon Jae

PY - 2017/7/12

Y1 - 2017/7/12

N2 - The use of lasers for industrial, scientific, and medical applications has received an enormous amount of attention due to the advantageous ability of precise parameter control for heat transfer. Laser-beam-induced photothermal heating and reactions can modify nanomaterials such as nanoparticles, nanowires, and two-dimensional materials including graphene, in a controlled manner. There have been numerous efforts to incorporate lasers into advanced electronic processing, especially for inorganic-based flexible electronics. In order to resolve temperature issues with plastic substrates, laser–material processing has been adopted for various applications in flexible electronics including energy devices, processors, displays, and other peripheral electronic components. Here, recent advances in laser–material interactions for inorganic-based flexible applications with regard to both materials and processes are presented.

AB - The use of lasers for industrial, scientific, and medical applications has received an enormous amount of attention due to the advantageous ability of precise parameter control for heat transfer. Laser-beam-induced photothermal heating and reactions can modify nanomaterials such as nanoparticles, nanowires, and two-dimensional materials including graphene, in a controlled manner. There have been numerous efforts to incorporate lasers into advanced electronic processing, especially for inorganic-based flexible electronics. In order to resolve temperature issues with plastic substrates, laser–material processing has been adopted for various applications in flexible electronics including energy devices, processors, displays, and other peripheral electronic components. Here, recent advances in laser–material interactions for inorganic-based flexible applications with regard to both materials and processes are presented.

KW - flexible electronics

KW - lasers

KW - laser–material interactions

UR - https://www.scopus.com/pages/publications/85017366322

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DO - 10.1002/adma.201606586

M3 - Journal article

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AN - SCOPUS:85017366322

SN - 0935-9648

VL - 29

JO - Advanced Materials

JF - Advanced Materials

IS - 26

M1 - 1606586

ER -

Laser–Material Interactions for Flexible Applications

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