A novel p/n-dopable electrochromic electrode material based on P(TPACz)/WO3 coralloid porous nanocomposite
Novel monomer TPACz containing carbazole and triphenylamine active groups was synthesized. P(TPACz)/WO3 coralloid porous electrochromic electrode material were prepared by electropolymerization. The P(TPACz)/WO3 coralloid porous composite electrode material exhibited independent electrochromic prope...
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Veröffentlicht in: | Journal of alloys and compounds 2022-11, Vol.922, p.166195, Article 166195 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | Novel monomer TPACz containing carbazole and triphenylamine active groups was synthesized. P(TPACz)/WO3 coralloid porous electrochromic electrode material were prepared by electropolymerization. The P(TPACz)/WO3 coralloid porous composite electrode material exhibited independent electrochromic properties in the positive potential range (0−1.7 V) (yellow at neutral state and blue at oxidation state) and negative potential range (−1.8−0 V) with the color of the film changing from yellow to dark blue. At the same time, the electrochemical properties of P(TPACz)/WO3 composite material ware tested. It is noteworthy that the P(TPACz)/WO3 coralloid porous electrochromic composite electrode materials exhibit both n-type and p-type doped electrochemical properties. Especially, P(TPACz)/WO3 exhibit excellent capacitive properties in the n-doped state. According to its GCD curve of P(TPACz)/WO3 nanocomposite electrode material, the area ratio capacitance is 1.94 mF cm−2 in the positive potential window of 0−0.8 V. And the area ratio capacitance is 33.3 mF cm−2 in the negative potential window of −1.8−0 V. Therefore, the design and effects of the nanocomposite material can broaden application range of electrochromic electrode materials and provide new strategies for energy saving material design.
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•A novel coralloid porous material was designed .•The material showed excellent electrochromic and electrochemical properties. |
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ISSN: | 0925-8388 1873-4669 |
DOI: | 10.1016/j.jallcom.2022.166195 |