Predicting the Plateau Modulus from Molecular Parameters of Conjugated Polymers

Abigail M. Fenton; Renxuan Xie; Melissa P. Aplan; Youngmin Lee; Michael G. Gill; Ryan Fair; Fabian Kempe; Michael Sommer; Chad R. Snyder; Enrique D. Gomez; Ralph H. Colby

doi:10.1021/acscentsci.1c01396

Predicting the Plateau Modulus from Molecular Parameters of Conjugated Polymers

Abigail M. Fenton, Renxuan Xie, Melissa P. Aplan, Youngmin Lee, Michael G. Gill, Ryan Fair, Fabian Kempe, Michael Sommer, Chad R. Snyder, Enrique D. Gomez, Ralph H. Colby

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

17 Scopus citations

Abstract

The relationship between Kuhn length l_k, Kuhn monomer volume v₀, and plateau modulus G_N⁰, initially proposed by Graessley and Edwards for flexible polymers, and extended by Everaers, has a large gap in experimental data between the flexible and stiff regimes. This gap prevents the prediction of mechanical properties from the chain structure for any polymer in this region. Given the chain architecture, including a semiflexible backbone and side chains, conjugated polymers are an ideal class of material to study this crossover region. Using small angle neutron scattering, oscillatory shear rheology, and the freely rotating chain model, we have shown that 12 polymers with aromatic backbones populate a large part of this gap. We also have shown that a few of these polymers exhibit nematic ordering, which lowers G_N⁰.

Original language	English (US)
Pages (from-to)	268-274
Number of pages	7
Journal	ACS Central Science
Volume	8
Issue number	2
DOIs	https://doi.org/10.1021/acscentsci.1c01396
State	Published - Feb 23 2022
Externally published	Yes

ASJC Scopus subject areas

General Chemistry
General Chemical Engineering

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10.1021/acscentsci.1c01396

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title = "Predicting the Plateau Modulus from Molecular Parameters of Conjugated Polymers",

abstract = "The relationship between Kuhn length lk, Kuhn monomer volume v0, and plateau modulus GN0, initially proposed by Graessley and Edwards for flexible polymers, and extended by Everaers, has a large gap in experimental data between the flexible and stiff regimes. This gap prevents the prediction of mechanical properties from the chain structure for any polymer in this region. Given the chain architecture, including a semiflexible backbone and side chains, conjugated polymers are an ideal class of material to study this crossover region. Using small angle neutron scattering, oscillatory shear rheology, and the freely rotating chain model, we have shown that 12 polymers with aromatic backbones populate a large part of this gap. We also have shown that a few of these polymers exhibit nematic ordering, which lowers GN0.",

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doi = "10.1021/acscentsci.1c01396",

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AU - Fenton, Abigail M.

AU - Xie, Renxuan

AU - Aplan, Melissa P.

AU - Lee, Youngmin

AU - Gill, Michael G.

AU - Fair, Ryan

AU - Kempe, Fabian

AU - Sommer, Michael

AU - Snyder, Chad R.

AU - Gomez, Enrique D.

AU - Colby, Ralph H.

PY - 2022/2/23

Y1 - 2022/2/23

N2 - The relationship between Kuhn length lk, Kuhn monomer volume v0, and plateau modulus GN0, initially proposed by Graessley and Edwards for flexible polymers, and extended by Everaers, has a large gap in experimental data between the flexible and stiff regimes. This gap prevents the prediction of mechanical properties from the chain structure for any polymer in this region. Given the chain architecture, including a semiflexible backbone and side chains, conjugated polymers are an ideal class of material to study this crossover region. Using small angle neutron scattering, oscillatory shear rheology, and the freely rotating chain model, we have shown that 12 polymers with aromatic backbones populate a large part of this gap. We also have shown that a few of these polymers exhibit nematic ordering, which lowers GN0.

AB - The relationship between Kuhn length lk, Kuhn monomer volume v0, and plateau modulus GN0, initially proposed by Graessley and Edwards for flexible polymers, and extended by Everaers, has a large gap in experimental data between the flexible and stiff regimes. This gap prevents the prediction of mechanical properties from the chain structure for any polymer in this region. Given the chain architecture, including a semiflexible backbone and side chains, conjugated polymers are an ideal class of material to study this crossover region. Using small angle neutron scattering, oscillatory shear rheology, and the freely rotating chain model, we have shown that 12 polymers with aromatic backbones populate a large part of this gap. We also have shown that a few of these polymers exhibit nematic ordering, which lowers GN0.

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Predicting the Plateau Modulus from Molecular Parameters of Conjugated Polymers

Abstract

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