Transmissive-to-black fast electrochromic switching from a long conjugated pendant group and a highly dispersed polymer/SWNTElectronic supplementary information (ESI) available. See DOI: 10.1039/c7py01863k

In this study, a novel conjugated polymer, denoted as ECPblack , is synthesized. ECPblack demonstrated a unique electrochromic behavior with an ultrahigh contrast ratio (over 80%) in most of the visible regions, boasting an ultrahigh integrated contrast ratio of 71.8% between 380 nm and 880 nm. The...

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Main Authors: Zhang, Qiang, Tsai, Chou-Yi, Abidin, Taufik, Jiang, Jyh-Chiang, Shie, Wan-Ru, Li, Lain-Jong, Liaw, Der-Jang
Format: Article
Language:English
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Summary:In this study, a novel conjugated polymer, denoted as ECPblack , is synthesized. ECPblack demonstrated a unique electrochromic behavior with an ultrahigh contrast ratio (over 80%) in most of the visible regions, boasting an ultrahigh integrated contrast ratio of 71.8% between 380 nm and 880 nm. The long conjugated pendant group (pyrene) in ECPblack enhances the absorption in the blue region in its second oxidized state and results in transmissive-to-black electrochromic switching between the neutral state and the oxidized state. The transmissive-to-black electrochromic switching polymer with an ultrahigh contrast ratio could be especially attractive for applications in electronic displays. In addition, when polytriarylamine/nanotube ( SWNT/P2 ) dispersion is doped in ECPblack , the response time of its electrochemical and electrochromic behaviors is further reduced. The electrochromic switching and bleaching time of SWNT/P2/ECPblack decreased by 73% and 80%, respectively. The improvement is caused by the phase separation of the rigid SWNT and the flexible polymer, which generates a rough surface morphology and provides more pathways for faster diffusion of counterions (ClO 4 − ). The polymer/SWNT doping technique provides a simple way to accelerate ion diffusion in anodically coloring materials. Electrochromic polymer ( ECPblack ) demonstrates an ultrahigh contrast ratio (over 80%) in most of the visible regions, and its electrochemical and electrochromic behaviors remarkably accelerate by doping nanotube/polytriarylamine.
ISSN:1759-9954
1759-9962
DOI:10.1039/c7py01863k