Red-to-black electrochromism of 4,9-dihydro-s-indaceno[1,2-b:5,6-b’]dithiophene-embedded conjugated polymers

Cho, Ching Mui; Ye, Qun; Neo, Wei Teng; Lin, Tingting; Song, Jing; Lu, Xuehong; Xu, Jianwei

doi:10.1007/s10853-015-9135-5

Cited by 15 publications

(6 citation statements)

References 46 publications

(52 reference statements)

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“…An alternative strategy for accessing high-gap ECPs involved utilizing acyclic dioxythiophene polymers (PAcDOTs) that were functionalized with branched alkoxy solubilizing chains and copolymerized with 3,4-dimethoxythiophene or ethylenedioxythiophene. − The PAcDOT-based polymers represented a new class of orange and red ECPs that exhibit λ max values between 485 and 525 nm while maintaining relatively low onsets of oxidation due to the electron-donating nature of the oxygen atom adjacent to the thiophene backbone. This work was advantageous beyond the seminal work on red electrochromics based on substituted thiophenes and has since motivated other research groups to realize diverse strategies to access conjugated polymers in the same color space, culminating in red ECPs being synthesized with benzotriazole, phenanthrocarbazole, indacenodithiophene, , and thienothiophene building blocks. However, these systems suffer from poor electrochromic contrast or exhibit colored-to-colored electrochromic properties and are not suited for transmissive electrochromic applications.…”

Section: Introductionmentioning

confidence: 99%

Exploring Isomeric Effects on Optical and Electrochemical Properties of Red/Orange Electrochromic Polymers

et al. 2021

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Subtle structural changes in monomeric building blocks can have an immense effect, whether positive or detrimental, on the resulting properties of conjugated polymers. With this in mind, it is paramount to understand structure–property relationships that serve as the guiding principles for manipulating optical and electrochemical characteristics. Herein, a family of dialkylthiophene-co-propylenedioxythiophene copolymers are synthesized via direct arylation polymerizations, with a key design motif being minimal changes in the structural composition of the propylenedioxythiophene comonomer. Variation in the substitution pattern on the propylene bridge provides insights into the role of stereo- and compositional isomers on the resulting polymer properties. Specifically, time-dependent density functional theory calculations reveal changes in the number and placement of comonomers with varying composition and stereocenters, impacting the calculated absorbance spectra, as evident from calculated absorbance maxima spanning 75 nm, which ultimately manifests in differences in the calculated color. Experimentally, UV–vis absorbance spectroscopy and colorimetry reveal a dependence on the stereo- and regiospecificity, while electrochromic properties, such as contrast and switching times, are not drastically affected by the substitution patterns. Independent of position and functionality, each polymer exhibited a transmittance change greater than 65% at the maximum absorbance wavelength while maintaining the ability to rapidly switch between colored and transmissive states in organic electrolytes. This work highlights how subtle structural changes can manipulate and optimize optical features without sacrificing electrochromic properties such as kinetic switching time and optical contrast. In addition to fundamental insights into monomeric design of propylenedioxythiophene building blocks and their optical and redox characteristics, the results provide an additional structural handle for fine-tuning the observed color of electrochromic polymers.

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Section: Introductionmentioning

confidence: 99%

Exploring Isomeric Effects on Optical and Electrochemical Properties of Red/Orange Electrochromic Polymers

et al. 2021

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“…Initially, thiophene-based ECPs with red neutral state were electrochemically prepared when researchers attempted to optimize the polymerization methods and performance of the polymers. − Afterward, Reynolds’ group started to develop red ECPs and prepared some processable polymers composed of 3,4-propylenedioxythiophene (ProDOT) or alkoxy-substituted thiophenes, but these polymers retained unavoidable hues of magenta or pink color. On the basis of these pioneering work, Xu’s group recently developed a series of processable decent red-to-transmissive copolymers by oxidative polymerization, which exhibited saturated neutral color, high contrast, and fast switching. , Aiming to improve further the performance of ECPs, new building blocks such as benzotriazole, phenanthrocarbazole, and 4,9-dihydro- s -indaceno[1,2- b :5,6- b ]dithiophene (IDT) were introduced and copolymerized with conventional thiophene derivatives. Despite great efforts, it is still difficult to combine the desirable color with high performance, inspiring us to consider unconventional moieties to search novel solution-processable red electrochromic polymers with promising performance.…”

Section: Introductionmentioning

confidence: 99%

Design Strategy for Efficient Solution-Processable Red Electrochromic Polymers Based on Unconventional 3,6-Bis(dodecyloxy)thieno[3,2-b]thiophene Building Blocks

Yin

Zeng

et al. 2018

Macromolecules

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In the quest for solution-processable red electrochromic material with high performance, a series of 3,6-bis(dodecyloxy)thieno[3,2-b]thiophene (DOTT)-based polymers have been designed by combining DOTT with different aromatic building blocks (bithiophene, benzene, and dimethoxybenzene) and prepared through Pd-catalyzed chemical copolymerization. Among them, the solution-processable polymer poly(2,5-dimethoxyphenyl-1,4-diyl-3,6-bis(dodecyloxy)thieno[3,2-b]thiophene) (P3) showed obvious yellow-green fluorescence in chloroform and demonstrated a rapid reversible switching (1.1 s/0.9 s for doping/dedoping process) between the red and bleached states. This brilliant red polymer exhibited moderate contrast (46% at 510 nm) and excellent cycling stability (in film: 78% for total amount and 63% for reduction after 12000 cycles; in device: 85.6% after 3000 cycles) which qualify it for further device fabrications. This study reveals that this polymer (P3) would be a promising high performance red electrochrome and could be a good candidate for flexible and large-scale organic electrochromic devices as well as for smart indicators or display applications.

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“…From AFM study, porous structures have been observed, which could facilitate solvent/electrolyte diffusion. , Moreover, the lower roughness of PEBE-PBP might imply a more compact surface morphology, which could be induced by the different distribution of modified moieties with side chains. With lower roughness, the diffusion of moisture and oxygen would be reduced into the interior of the polymer film, which might result in better stability of PEBE-PBP than PEB-P during both p-doping and n-doping tests. It is worth mentioning that the surface morphology would critically influence the electrochemical performances of electroactive polymers, , but a clear and exact mechanism has not been fully understood for our recombined polymers yet.…”

Section: Resultsmentioning

confidence: 99%

Recombination Strategy for Processable Ambipolar Electroactive Polymers in Pseudocapacitors

Wang

Guo

et al. 2018

Macromolecules

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In order to circumvent the contradiction between processability and electrochemical performances, we report a recombination strategy in both unit and segment scales for processable ambipolar electroactive materials starting from parental moieties: classic ambipolar polymer (PEBE) and its soluble analogue (PPBP). On the basis of this strategy, two recombined polymers (PEB-P and PEBE-PBP) are successfully prepared via direct (hetero)arylation copolymerization. Through systematical characterization of properties, both PEB-P and PEBE-PBP not only possess the solubility fostered by PPBP but also exhibit identical electrochemical and optical properties to PEBE, demonstrating the reliability of this recombination strategy. Moreover, film electrodes of these recombined polymers exhibit desirable pseudocapacitance, acceptable stability, and superior processability to PEBE, making them promising candidates for Type III supercapacitors and other multifunctional energy storage devices.

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Red-to-black electrochromism of 4,9-dihydro-s-indaceno[1,2-b:5,6-b’]dithiophene-embedded conjugated polymers

Cited by 15 publications

References 46 publications

Exploring Isomeric Effects on Optical and Electrochemical Properties of Red/Orange Electrochromic Polymers

Exploring Isomeric Effects on Optical and Electrochemical Properties of Red/Orange Electrochromic Polymers

Design Strategy for Efficient Solution-Processable Red Electrochromic Polymers Based on Unconventional 3,6-Bis(dodecyloxy)thieno[3,2-b]thiophene Building Blocks

Recombination Strategy for Processable Ambipolar Electroactive Polymers in Pseudocapacitors

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