Transmissive-to-black fast electrochromic switching from a long conjugated pendant group and a highly dispersed polymer/SWNT

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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Published inPolymer chemistry Vol. 9; no. 5; pp. 619 - 626
Main Authors Zhang, Qiang, Tsai, Chou-Yi, Abidin, Taufik, Jiang, Jyh-Chiang, Shie, Wan-Ru, Li, Lain-Jong, Liaw, Der-Jang
Format Journal Article
LanguageEnglish
Published Cambridge Royal Society of Chemistry 07.02.2018
Subjects
Bleaching
Chemical synthesis
Coloring
Diffusion rate
Dispersion
Electrochromism
Ion diffusion
Phase separation
Polymer chemistry
Polymers
Response time
Single wall carbon nanotubes
Switching
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Abstract 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.
AbstractList 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.
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 (ClO4−). The polymer/SWNT doping technique provides a simple way to accelerate ion diffusion in anodically coloring materials.
Author Jiang, Jyh-Chiang
Tsai, Chou-Yi
Li, Lain-Jong
Zhang, Qiang
Abidin, Taufik
Shie, Wan-Ru
Liaw, Der-Jang
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Snippet In this study, a novel conjugated polymer, denoted as ECPblack , is synthesized. ECPblack demonstrated a unique electrochromic behavior with an ultrahigh...
In this study, a novel conjugated polymer, denoted as ECPblack, is synthesized. ECPblack demonstrated a unique electrochromic behavior with an ultrahigh...
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StartPage 619
SubjectTerms Bleaching
Chemical synthesis
Coloring
Diffusion rate
Dispersion
Electrochromism
Ion diffusion
Phase separation
Polymer chemistry
Polymers
Response time
Single wall carbon nanotubes
Switching
Title Transmissive-to-black fast electrochromic switching from a long conjugated pendant group and a highly dispersed polymer/SWNT
URI https://www.proquest.com/docview/2010884692/abstract/
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