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Cited 17 time in webofscience Cited 9 time in scopus
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Instant, multiscale dry transfer printing by atomic diffusion control at heterogeneous interfaces

Authors
Heo, SeungkyoungHa, JeongdaeSon, Sook JinChoi, In SunLee, HyeokjunOh, SaehyuckJekal, JanghwanKang, Min HyungLee, Gil JuJung, Han HeeYea, JunwooLee, TaeyoonLee, YoungjeonChoi, Ji-WoongXu, ShengChoi, Joon HoJeong, Jae-WoongSong, Young MinRah, Jong-CheolKeum, HohyunJang, Kyung-In
Issue Date
Jul-2021
Publisher
AMER ASSOC ADVANCEMENT SCIENCE
Citation
SCIENCE ADVANCES, v.7, no.28
Journal Title
SCIENCE ADVANCES
Volume
7
Number
28
URI
http://scholarworks.bwise.kr/kbri/handle/2023.sw.kbri/312
DOI
10.1126/sciadv.abh0040
ISSN
2375-2548
Abstract
Transfer printing is a technique that integrates heterogeneous materials by readily retrieving functional elements from a grown substrate and subsequently printing them onto a specific target site. These strategies are broadly exploited to construct heterogeneously integrated electronic devices. A typical wet transfer printing method exhibits limitations related to unwanted displacement and shape distortion of the device due to uncontrollable fluid movement and slow chemical diffusion. In this study, a dry transfer printing technique that allows reliable and instant release of devices by exploiting the thermal expansion mismatch between adjacent materials is demonstrated, and computational studies are conducted to investigate the fundamental mechanisms of the dry transfer printing process. Extensive exemplary demonstrations of multiscale, sequential wet-dry, circuit-level, and biological topography-based transfer printing demonstrate the potential of this technique for many other emerging applications in modern electronics that have not been achieved through conventional wet transfer printing over the past few decades.
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연구본부 > 감각·운동시스템 연구그룹 > 1. Journal Articles
연구본부 > 신경회로망사업단 > 1. Journal Articles

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Rah, Jong-Cheol
연구본부 (감각·운동시스템 연구그룹)
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