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Influence of molecular designs on polaronic and vibrational transitions in a conjugated push-pull copolymer.


ABSTRACT: Electron-phonon interactions of free charge-carriers in doped pi-conjugated polymers are conceptually described by 1-dimensional (1D) delocalization. Thereby, polaronic transitions fit the 1D-Froehlich model in quasi-confined chains. However, recent developments in conjugated polymers have diversified the backbones to become elaborate heterocylcic macromolecules. Their complexity makes it difficult to investigate the electron-phonon coupling. In this work we resolve the electron-phonon interactions in the ground and doped state in a complex push-pull polymer. We focus on the polaronic transitions using in-situ spectroscopy to work out the differences between single-unit and push-pull systems to obtain the desired structural- electronic correlations in the doped state. We apply the classic 1D-Froehlich model to generate optical model fits. Interestingly, we find the 1D-approach in push-pull polarons in agreement to the model, pointing at the strong 1D-character and plain electronic structure of the push-pull structure. In contrast, polarons in the single-unit polymer emerge to a multi- dimensional problem difficult to resolve due to their anisotropy. Thus, we report an enhancement of the 1D-character by the push-pull concept in the doped state - an important view in light of the main purpose of push-pull polymers for photovoltaic devices.

SUBMITTER: Cobet C 

PROVIDER: S-EPMC5059657 | biostudies-literature | 2016 Oct

REPOSITORIES: biostudies-literature

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Influence of molecular designs on polaronic and vibrational transitions in a conjugated push-pull copolymer.

Cobet Christoph C   Gasiorowski Jacek J   Menon Reghu R   Hingerl Kurt K   Schlager Stefanie S   White Matthew S MS   Neugebauer Helmut H   Sariciftci N Serdar NS   Stadler Philipp P  

Scientific reports 20161012


Electron-phonon interactions of free charge-carriers in doped pi-conjugated polymers are conceptually described by 1-dimensional (1D) delocalization. Thereby, polaronic transitions fit the 1D-Froehlich model in quasi-confined chains. However, recent developments in conjugated polymers have diversified the backbones to become elaborate heterocylcic macromolecules. Their complexity makes it difficult to investigate the electron-phonon coupling. In this work we resolve the electron-phonon interacti  ...[more]

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