Electrical and Optical Properties of Electrochromic Window with Both Lithium and Proton Conducting Polymer Electrolytic Media
리튬 및 프로톤 전도성 고분자전해질을 사용하여 제작한 Electrochromic 창의 전기 및 광학적 특성
박성용;이철환;김형선;조원일;조병원;윤경석;안춘호;우경근;
한국과학기술연구원 화공부;(주)실트론;(주)삼성코닝;
An electrochromic(EC) cell was constructed using $WO_3$ as a electrochromic material and NiO as a counter electrode, deposited onto ITO-coated glass by the implementation of electron beam evaporation. The electrolytic media were both lithium and proton conducting polymers such as poly-acrylonitrile(PAN)-$LiClO_4$, poly-ethylene oxide(PEO)-$LiClO_4$, poly-vinyl butyral(PVB)-LiCl and PVB-H$_3$$PO_4$. Potentiodynamic cycling of the cells using PAN-$LiClO_4$, or PVB-$H_3$$PO_4$ electrolyte yielded a transmission variation of more than 40% at the wavelength of 632.8 nm within less than 10 sec response time at room temperature. These results indicate that these electrolytes, transparent in gel type, are premising for the application in large area electrochromic windows.