Highly Conductive Flexible Metal-Ceramic Nanolaminate Electrode for High-Performance Soft Electronics

Hyo Chan Lee; Kyungseop Kim; Sang Youn Han; Sang Kyu Choi; Eunho Lee; Mankyu Jo; Min Seok Yoo; Kilwon Cho

doi:10.1021/acsami.8b14821

Highly Conductive Flexible Metal-Ceramic Nanolaminate Electrode for High-Performance Soft Electronics

Hyo Chan Lee, Kyungseop Kim, Sang Youn Han, Sang Kyu Choi, Eunho Lee, Mankyu Jo, Min Seok Yoo, Kilwon Cho

Dept. of Chemical and Biomolecular Engineering

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

11 Scopus citations

Abstract

Realization of flexible electronics is an attractive challenge because of its great potential in many applications. However, the design of flexible and highly conductive metal electrodes has been a bottleneck for the fabrication of flexible devices because bulk metals are easily fractured when subjected to elongation or compression. Here, we demonstrate metal-ceramic nanolaminates as electrodes for flexible electronic devices. Insertion of ceramic layers, each with a thickness of a few nanometers, into an otherwise metal electrode significantly improved its strength and bending stability and only slightly reduced its electrical conductivity. Finally, we demonstrated that a touch screen panel fabricated with metal-ceramic nanolaminate electrodes was stable to 200 000 cycles of folding to a bending radius of 3 mm.

Original language	English
Pages (from-to)	2211-2217
Number of pages	7
Journal	ACS Applied Materials and Interfaces
Volume	11
Issue number	2
DOIs	https://doi.org/10.1021/acsami.8b14821
State	Published - 16 Jan 2019

Keywords

ceramic
electrode
flexible electronics
metal
nanolaminate

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10.1021/acsami.8b14821

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abstract = "Realization of flexible electronics is an attractive challenge because of its great potential in many applications. However, the design of flexible and highly conductive metal electrodes has been a bottleneck for the fabrication of flexible devices because bulk metals are easily fractured when subjected to elongation or compression. Here, we demonstrate metal-ceramic nanolaminates as electrodes for flexible electronic devices. Insertion of ceramic layers, each with a thickness of a few nanometers, into an otherwise metal electrode significantly improved its strength and bending stability and only slightly reduced its electrical conductivity. Finally, we demonstrated that a touch screen panel fabricated with metal-ceramic nanolaminate electrodes was stable to 200 000 cycles of folding to a bending radius of 3 mm.",

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AU - Lee, Hyo Chan

AU - Kim, Kyungseop

AU - Han, Sang Youn

AU - Choi, Sang Kyu

AU - Lee, Eunho

AU - Jo, Mankyu

AU - Yoo, Min Seok

AU - Cho, Kilwon

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AB - Realization of flexible electronics is an attractive challenge because of its great potential in many applications. However, the design of flexible and highly conductive metal electrodes has been a bottleneck for the fabrication of flexible devices because bulk metals are easily fractured when subjected to elongation or compression. Here, we demonstrate metal-ceramic nanolaminates as electrodes for flexible electronic devices. Insertion of ceramic layers, each with a thickness of a few nanometers, into an otherwise metal electrode significantly improved its strength and bending stability and only slightly reduced its electrical conductivity. Finally, we demonstrated that a touch screen panel fabricated with metal-ceramic nanolaminate electrodes was stable to 200 000 cycles of folding to a bending radius of 3 mm.

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Highly Conductive Flexible Metal-Ceramic Nanolaminate Electrode for High-Performance Soft Electronics

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