Nematic Order Imposes Molecular Weight Effect on Charge Transport in Conjugated Polymers

Wenlin Zhang; Scott T. Milner; Enrique D. Gomez

doi:10.1021/acscentsci.8b00011

Nematic Order Imposes Molecular Weight Effect on Charge Transport in Conjugated Polymers

Wenlin Zhang, Scott T. Milner, Enrique D. Gomez

Research output: Contribution to journal › Article › peer-review

15 Scopus citations

Abstract

Nematic order, in the bulk or at interfaces, is ubiquitous for semiflexible conjugated polymers. Nevertheless, the effect of liquid crystalline order on charge transport remains unclear. Using an analytical model, we demonstrate that nematic order leads to an enhancement in charge mobilities when compared to isotropic chains. Furthermore, we predict a quadratic dependence of the charge mobility on molecular weight of the chains. Analysis of the probability of forming hairpin defects also shows how the persistence length affects charge transport in conjugated polymers. We speculate that the prevalence of nematic order in conjugated polymers explains the reported increase in charge mobilities with molecular weight.

Original language	English (US)
Pages (from-to)	413-421
Number of pages	9
Journal	ACS Central Science
Volume	4
Issue number	3
DOIs	https://doi.org/10.1021/acscentsci.8b00011
State	Published - Mar 28 2018

All Science Journal Classification (ASJC) codes

Chemistry(all)
Chemical Engineering(all)

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10.1021/acscentsci.8b00011

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title = "Nematic Order Imposes Molecular Weight Effect on Charge Transport in Conjugated Polymers",

abstract = "Nematic order, in the bulk or at interfaces, is ubiquitous for semiflexible conjugated polymers. Nevertheless, the effect of liquid crystalline order on charge transport remains unclear. Using an analytical model, we demonstrate that nematic order leads to an enhancement in charge mobilities when compared to isotropic chains. Furthermore, we predict a quadratic dependence of the charge mobility on molecular weight of the chains. Analysis of the probability of forming hairpin defects also shows how the persistence length affects charge transport in conjugated polymers. We speculate that the prevalence of nematic order in conjugated polymers explains the reported increase in charge mobilities with molecular weight.",

author = "Wenlin Zhang and Milner, {Scott T.} and Gomez, {Enrique D.}",

note = "Funding Information: Funding support from the National Science Foundation under award number DMR-1629006 is gratefully acknowledged. Funding Information: National Science Foundation under award number DMR-1629006 is gratefully acknowledged Publisher Copyright: {\textcopyright} 2018 American Chemical Society.",

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doi = "10.1021/acscentsci.8b00011",

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AU - Gomez, Enrique D.

N1 - Funding Information: Funding support from the National Science Foundation under award number DMR-1629006 is gratefully acknowledged. Funding Information: National Science Foundation under award number DMR-1629006 is gratefully acknowledged Publisher Copyright: © 2018 American Chemical Society.

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N2 - Nematic order, in the bulk or at interfaces, is ubiquitous for semiflexible conjugated polymers. Nevertheless, the effect of liquid crystalline order on charge transport remains unclear. Using an analytical model, we demonstrate that nematic order leads to an enhancement in charge mobilities when compared to isotropic chains. Furthermore, we predict a quadratic dependence of the charge mobility on molecular weight of the chains. Analysis of the probability of forming hairpin defects also shows how the persistence length affects charge transport in conjugated polymers. We speculate that the prevalence of nematic order in conjugated polymers explains the reported increase in charge mobilities with molecular weight.

AB - Nematic order, in the bulk or at interfaces, is ubiquitous for semiflexible conjugated polymers. Nevertheless, the effect of liquid crystalline order on charge transport remains unclear. Using an analytical model, we demonstrate that nematic order leads to an enhancement in charge mobilities when compared to isotropic chains. Furthermore, we predict a quadratic dependence of the charge mobility on molecular weight of the chains. Analysis of the probability of forming hairpin defects also shows how the persistence length affects charge transport in conjugated polymers. We speculate that the prevalence of nematic order in conjugated polymers explains the reported increase in charge mobilities with molecular weight.

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Nematic Order Imposes Molecular Weight Effect on Charge Transport in Conjugated Polymers

Abstract

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