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Boosting coloration efficiency in an electrochromic device using an ITO/Ag/ITO multilayered electrode and porous WO3 chromic layeropen accessBoosting coloration efficiency in an electrochromic device using an ITO/Ag/ITO multilayered electrode and porous WO3 chromic layer

Other Titles
Boosting coloration efficiency in an electrochromic device using an ITO/Ag/ITO multilayered electrode and porous WO3 chromic layer
Authors
Lee, Sueon김민재Lee, Sang HoJeong, Seung HyeKwon, Jang HyukJeong, Jae Kyeong
Issue Date
Jul-2023
Publisher
한국정보디스플레이학회
Keywords
Electrochromic device; transparent conducting oxide; porous chromic layer; coloration efficiency
Citation
Journal of Information Display, v.24, no.3, pp 177 - 188
Pages
12
Indexed
SCIE
SCOPUS
KCI
Journal Title
Journal of Information Display
Volume
24
Number
3
Start Page
177
End Page
188
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/196101
DOI
10.1080/15980316.2023.2170486
ISSN
1598-0316
2158-1606
Abstract
High-performance electrochromic devices (ECDs) were fabricated by introducing indium tin oxide/silver/indium tin oxide (IAI) multilayers as a transparent conducting oxide (TCO) electrode in conjunction with microstructural tailoring of tungsten trioxide (WO3) as an electrochromic (EC) layer. A 15-nm-thick Ag film with a preferential orientation of (111) and smooth morphology resulted in a high optical transmittance of 90.9% and sheet resistance 16.7 omega/sq, making it a suitable TCO. In addition, the open network WO3 film used as an EC layer was deposited by carefully controlling the chamber pressure during the sputtering process. A high chamber pressure (2.0 Pa) resulted in a WO3 film with the lowest mass density (5.72 g/cm(3)) and a rough morphology. Half-cell ECDs consisting of a TCO bottom electrode (BE)/WO3 stack immersed in LiClO4 electrolyte were fabricated to verify the impact of using the IAI multi-layer stack and tailored WO3 film as a TCO and EC layer, respectively. Significant enhancement in terms of coloration efficiency was achieved for the ECDs by adopting the IAI TCO and open network WO3 EC layer compared to counterpart devices with an ITO TCO or dense WO3 EC film. This can be explained by the facile carrier extraction (injection) and transport of Li ions.
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COLLEGE OF ENGINEERING (SCHOOL OF ELECTRONIC ENGINEERING)
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