Two-pronged strategy: Energizing bifunctional polyarylamine ketones in electrochromic supercapacitors

With the objective to actualize the lightweight and intelligent criteria in implementation and to extend the application range of high-performance polymers, a selection comprising polyarylamine ketone (PAAK) has been designed and synthesized as electrochromic materials. The remarkable photoelectric...

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Published inJournal of alloys and compounds Vol. 1013; p. 178526
Main Authors Wang, Qilin, Zheng, Zhibo, Shen, Huilin, Han, Yuntao, Chen, Zheng, Jiang, Zhenhua
Format Journal Article
LanguageEnglish
Published Elsevier B.V 31.01.2025
Subjects
Eenergy storage
Electrochromism
High-performance polymer
PAAK
Supercapacitor
Supercapacitor
Eenergy storage
Electrochromism
High-performance polymer
PAAK
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Abstract With the objective to actualize the lightweight and intelligent criteria in implementation and to extend the application range of high-performance polymers, a selection comprising polyarylamine ketone (PAAK) has been designed and synthesized as electrochromic materials. The remarkable photoelectric function of triphenylamine moieties and high-performance polymer characteristics were appropriately matched. And the synthesis method generalizability was confirmed through several attempts of side-chain substituent adjustment. The benefits of V2O5 nanowire ion storage layers in conjunction with the donor-acceptor (D-A) molecular engineering strategy deftly balanced electrochromic and energy storage features. Amongst them, devices employing PAAK-TPPA-OMe retained electrochromic performance subject to a 30,000-second switching. It was accessible to enhance the coloration efficiency to 331.19 cm2/C and reduce coloring time to 1.48 s after optimization. Likewise, PAAK-TPPA-OMe/V2O5 ECS yielded an area specific capacitance of 462.3 μF/cm2 and an energy density of 146.8 mWh/cm2 at a current density of 0.01 mA/cm2. It was convinced that such a conception could guide the intelligent integration of high-performance polymer functionalities. [Display omitted] •Series of intelligent materials derived from PAAKs have been designed and synthesized.•The system features a highly adjustable D-A structure.•The rational device structure enables color change and energy storage integration.•The coloring time for PAAK-TPPA-OMe/V2O5 ECS after optimization is merely 1.48 s.•The PAAK-TPPA-OMe/V2O5 ECS can operate continuously for more than 30,000 s.
AbstractList With the objective to actualize the lightweight and intelligent criteria in implementation and to extend the application range of high-performance polymers, a selection comprising polyarylamine ketone (PAAK) has been designed and synthesized as electrochromic materials. The remarkable photoelectric function of triphenylamine moieties and high-performance polymer characteristics were appropriately matched. And the synthesis method generalizability was confirmed through several attempts of side-chain substituent adjustment. The benefits of V2O5 nanowire ion storage layers in conjunction with the donor-acceptor (D-A) molecular engineering strategy deftly balanced electrochromic and energy storage features. Amongst them, devices employing PAAK-TPPA-OMe retained electrochromic performance subject to a 30,000-second switching. It was accessible to enhance the coloration efficiency to 331.19 cm2/C and reduce coloring time to 1.48 s after optimization. Likewise, PAAK-TPPA-OMe/V2O5 ECS yielded an area specific capacitance of 462.3 μF/cm2 and an energy density of 146.8 mWh/cm2 at a current density of 0.01 mA/cm2. It was convinced that such a conception could guide the intelligent integration of high-performance polymer functionalities. [Display omitted] •Series of intelligent materials derived from PAAKs have been designed and synthesized.•The system features a highly adjustable D-A structure.•The rational device structure enables color change and energy storage integration.•The coloring time for PAAK-TPPA-OMe/V2O5 ECS after optimization is merely 1.48 s.•The PAAK-TPPA-OMe/V2O5 ECS can operate continuously for more than 30,000 s.
ArticleNumber 178526
Author Jiang, Zhenhua
Chen, Zheng
Wang, Qilin
Shen, Huilin
Han, Yuntao
Zheng, Zhibo
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Snippet With the objective to actualize the lightweight and intelligent criteria in implementation and to extend the application range of high-performance polymers, a...
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StartPage 178526
SubjectTerms Eenergy storage
Electrochromism
High-performance polymer
PAAK
Supercapacitor
Title Two-pronged strategy: Energizing bifunctional polyarylamine ketones in electrochromic supercapacitors
URI https://dx.doi.org/10.1016/j.jallcom.2025.178526
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