Chirality in polythiophenes: A review

Wang, Kun; Xiao, Yin

doi:10.1002/chir.23333

Cited by 16 publications

(16 citation statements)

References 92 publications

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“…ECD measurements are commonly employed in chiral CPs and here utilized to impartially and straightforwardly determine the correct aggregation type of the solution. [53][54][55][56][57] Specifically, type I aggregation has a more effective long range interaction due to closer interlamellar distances and stronger p-stacking, leading to an additional monosignate Cotton effect. Contrarily, a symmetrical bisignate Cotton effect is expected in type II as the interactions are mostly governed by the The dotted lines represent the maximum molar mass where the elution curves reach zero.…”

Section: Resultsmentioning

confidence: 99%

Influence of the dispersity and molar mass distribution of conjugated polymers on the aggregation type and subsequent chiral expression

Van Oosten,

Verduyckt,

De Winter

et al. 2023

Soft Matter

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Section: Resultsmentioning

confidence: 99%

Influence of the dispersity and molar mass distribution of conjugated polymers on the aggregation type and subsequent chiral expression

Van Oosten,

Verduyckt,

De Winter

et al. 2023

Soft Matter

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“…For the homopolymers, type I is obtained in both cases, comparable to previous reports. ,, This is determined based on the shape of the UV–vis spectra, wherein the 0–0 transition related to π–π stacking at high wavelength (low energy) is very pronounced in both cases (Figure ). Furthermore, this transition occurs at 625 nm (1.98 eV) for P1 and 604 nm (2.05 eV) for P2 , values corresponding to type I in branched, chiral P3AT and linear, achiral P3AT, respectively. , For the chiral P1 , there is a bisignate Cotton effect present as a result of exciton coupling and Davydov splitting between the neighboring chromophores. − Due to the angular momentum between these chromophores, they yield two similar but opposite signals. − A strong monosignate Cotton effect at 635 nm (1.95 eV) as a result of long-range helicity is simultaneously present, giving rise to the very clear and typical asymmetrical shape of the ECD spectra as a result of the formation of type I aggregates…”

Section: Resultsmentioning

confidence: 99%

Introducing Molecular Asymmetry in Copolymer Structures to Favor Herringbone-Like Aggregation and Tune the Chiral Expression

Van Oosten,

Verduyckt,

Koeckelberghs

2023

Macromolecules

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Type I (comb-like) and type II (herringbone-like) aggregation in conjugated polymers has been thoroughly related to their intrinsic molecular structure, with parameters favoring strong π−π stacking leading to type I and parameters favoring van der Waals−London dispersion forces between the side chains yielding type II. Nonetheless, type II has mainly been investigated by disrupting the π−π stacking of type I. Here, we hypothesize that copolymer structures have a pronounced, positive effect on the ordering of type II aggregates, which becomes very evident in the chiral expression of the polymer if chiral monomers are incorporated. Therefore, two series of chiral copoly(3-alkyl)thiophenes with increasing asymmetry are studied. The difference in aggregation behavior, aggregating chiral building blocks combined with either aggregating (series 1) or nonaggregating achiral building blocks (series 2), is investigated along with the nature of the copolymer itself (block, tapered block, gradient, and random copolymer). This study identifies molecular asymmetry as an important tool to tune the process of aggregation and its influence on both the resulting aggregation type and chiral expression.

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“…Polythiophenes are regarded as attractive π-conjugated polymers for the construction of CPL emitters due to their profound optoelectronic properties. [111][112][113] For example, Akagi and coworkers fabricated a series of thiophene-based fluorescence polymers bearing chiral nonyloxy carbonyl pendant, most of which could exhibit main-chain liquid crystallinity properties. [114] The obtained polythiophene derivatives showed RGBcolored fluorescence and CPL in solution and film.…”

Section: Chiral Component and Luminescent Component Located In Polyme...mentioning

confidence: 99%

Polymer‐Based Circularly Polarized Luminescent Materials

Zhong

Zhao

Deng

2023

Advanced Optical Materials

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Chiral materials capable of generating circularly polarized luminescence (CPL) have gained rapidly growing research interest by virtue of their peculiar photophysical characteristics and far‐reaching applications. Amongst various CPL materials, polymer‐based CPL materials have constituted an important class owing to their abundant types, ease of manufacture, high thermal stability, as well as, tunable properties. The present work reviews the latest advances in constructing polymer‐based CPL materials, which are classified based on the interaction modes between chiral and luminescent components, that is, covalent interaction, non‐covalent interaction, as well as, without covalent and non‐covalent interactions. The newly emerging categories of polymer‐based CPL materials, that is, nonconventional fluorescence‐based CPL materials, circularly polarized room temperature phosphorescence, and polymer‐based CPL materials with thermally activated delayed fluorescence properties are also presented. Typical applications of the polymer‐based CPL emitters in organic light‐emitting diodes, information security encryption, and optical sensors are further discussed. Additionally, the current challenges and future perspectives in this field are summarized. This review article is expected to stimulate more unprecedented achievements derived from polymer‐based CPL materials, thus further promoting their future practical applications.

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Chirality in polythiophenes: A review

Cited by 16 publications

References 92 publications

Influence of the dispersity and molar mass distribution of conjugated polymers on the aggregation type and subsequent chiral expression

Influence of the dispersity and molar mass distribution of conjugated polymers on the aggregation type and subsequent chiral expression

Introducing Molecular Asymmetry in Copolymer Structures to Favor Herringbone-Like Aggregation and Tune the Chiral Expression

Polymer‐Based Circularly Polarized Luminescent Materials

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