Foundry-compatible high-resolution patterning of vertically phase-separated semiconducting films for ultraflexible organic electronics

Foundry-compatible high-resolution patterning of vertically phase-separated semiconducting films for ultraflexible organic electronics

Though shape-changing devices are promising for future haptic displays, existing designs fail to provide smooth surfaces for the user during tactile exploration. Here, the authors utilize flexible auxetic structures to realize shape displays with smooth surfaces and different Gaussian curvatures.

Bibliographic Details
Main Authors: Binghao Wang, Wei Huang, Sunghoon Lee, Lizhen Huang, Zhi Wang, Yao Chen, Zhihua Chen, Liang-Wen Feng, Gang Wang, Tomoyuki Yokota, Takao Someya, Tobin J. Marks, Antonio Facchetti
Format: Article
Language:English
Published: Nature Publishing Group 2021-08-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-021-25059-8
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spelling doaj-8c902ac83dda49659c9c9a50b7a70ff22021-08-22T11:39:38ZengNature Publishing GroupNature Communications2041-17232021-08-0112111110.1038/s41467-021-25059-8Foundry-compatible high-resolution patterning of vertically phase-separated semiconducting films for ultraflexible organic electronicsBinghao Wang0Wei Huang1Sunghoon Lee2Lizhen Huang3Zhi Wang4Yao Chen5Zhihua Chen6Liang-Wen Feng7Gang Wang8Tomoyuki Yokota9Takao Someya10Tobin J. Marks11Antonio Facchetti12Joint International Research Laboratory of Information Display and Visualization, Key Laboratory of MEMS of Ministry of Education, School of Electronic Science and Engineering, Southeast UniversityDepartment of Chemistry and the Materials Research Center, Northwestern UniversityDepartment of Electrical Engineering and Information Systems, School of Engineering, The University of TokyoDepartment of Chemistry and the Materials Research Center, Northwestern UniversityDepartment of Chemistry and the Materials Research Center, Northwestern UniversityDepartment of Chemistry and the Materials Research Center, Northwestern UniversityFlexterra Inc.Department of Chemistry and the Materials Research Center, Northwestern UniversityDepartment of Chemistry and the Materials Research Center, Northwestern UniversityDepartment of Electrical Engineering and Information Systems, School of Engineering, The University of TokyoDepartment of Electrical Engineering and Information Systems, School of Engineering, The University of TokyoDepartment of Chemistry and the Materials Research Center, Northwestern UniversityDepartment of Chemistry and the Materials Research Center, Northwestern UniversityThough shape-changing devices are promising for future haptic displays, existing designs fail to provide smooth surfaces for the user during tactile exploration. Here, the authors utilize flexible auxetic structures to realize shape displays with smooth surfaces and different Gaussian curvatures.https://doi.org/10.1038/s41467-021-25059-8
collection DOAJ
language English
format Article
sources DOAJ
author Binghao Wang
Wei Huang
Sunghoon Lee
Lizhen Huang
Zhi Wang
Yao Chen
Zhihua Chen
Liang-Wen Feng
Gang Wang
Tomoyuki Yokota
Takao Someya
Tobin J. Marks
Antonio Facchetti
spellingShingle Binghao Wang
Wei Huang
Sunghoon Lee
Lizhen Huang
Zhi Wang
Yao Chen
Zhihua Chen
Liang-Wen Feng
Gang Wang
Tomoyuki Yokota
Takao Someya
Tobin J. Marks
Antonio Facchetti
Foundry-compatible high-resolution patterning of vertically phase-separated semiconducting films for ultraflexible organic electronics
Nature Communications
author_facet Binghao Wang
Wei Huang
Sunghoon Lee
Lizhen Huang
Zhi Wang
Yao Chen
Zhihua Chen
Liang-Wen Feng
Gang Wang
Tomoyuki Yokota
Takao Someya
Tobin J. Marks
Antonio Facchetti
author_sort Binghao Wang
title Foundry-compatible high-resolution patterning of vertically phase-separated semiconducting films for ultraflexible organic electronics
title_short Foundry-compatible high-resolution patterning of vertically phase-separated semiconducting films for ultraflexible organic electronics
title_full Foundry-compatible high-resolution patterning of vertically phase-separated semiconducting films for ultraflexible organic electronics
title_fullStr Foundry-compatible high-resolution patterning of vertically phase-separated semiconducting films for ultraflexible organic electronics
title_full_unstemmed Foundry-compatible high-resolution patterning of vertically phase-separated semiconducting films for ultraflexible organic electronics
title_sort foundry-compatible high-resolution patterning of vertically phase-separated semiconducting films for ultraflexible organic electronics
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2021-08-01
description Though shape-changing devices are promising for future haptic displays, existing designs fail to provide smooth surfaces for the user during tactile exploration. Here, the authors utilize flexible auxetic structures to realize shape displays with smooth surfaces and different Gaussian curvatures.
url https://doi.org/10.1038/s41467-021-25059-8
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