Solution-Processable Ag-Mediated ZnO Nanowires for Scalable Low-Temperature Fabrication of Flexible Devices

Solution-Processable Ag-Mediated ZnO Nanowires for Scalable Low-Temperature Fabrication of Flexible Devices

We present a scalable and vacuum-free hybrid nanoarchitecturing strategy demonstrated by the solution-processable Ag-mediated ZnO nanowire (termed “SPAZN”) growth on transparent and flexible substrates at low temperature. The SPAZN protocol enables selective hydrothermal ZnO nanowire (ZNW) growth on...

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Veröffentlicht in:ACS applied electronic materials 2022-03, Vol.4 (3), p.910-916
Hauptverfasser: Choi, Hyunsik, Kim, Kwangjun, Kim, Minwook, Kim, Jeong Dae, Cho, Incheol, Kim, Inhwan, Chae, Hyoungseok, Han, Inhui, Kim, Hyein, Seo, Jung Hwan, Baac, Hyoung Won, Park, Inkyu, Ok, Jong G
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container_end_page 916
container_issue 3
container_start_page 910
container_title ACS applied electronic materials
container_volume 4
creator Choi, Hyunsik
Kim, Kwangjun
Kim, Minwook
Kim, Jeong Dae
Cho, Incheol
Kim, Inhwan
Chae, Hyoungseok
Han, Inhui
Kim, Hyein
Seo, Jung Hwan
Baac, Hyoung Won
Park, Inkyu
Ok, Jong G
description We present a scalable and vacuum-free hybrid nanoarchitecturing strategy demonstrated by the solution-processable Ag-mediated ZnO nanowire (termed “SPAZN”) growth on transparent and flexible substrates at low temperature. The SPAZN protocol enables selective hydrothermal ZnO nanowire (ZNW) growth on a nanoporous Ag framework obtainable from mild annealing of ionic Ag ink coating. The ZNW morphology and density can be readily controlled by tuning the SPAZN processing parameters including Ag ink concentration, coating condition, and hydrothermal growth temperature based on the underpinnings of the Ag-morphology-mediated ZNW growth mechanism proposed. We exemplify a transparent plastic gas sensor as one of many promising applications.
doi_str_mv 10.1021/acsaelm.2c00035
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