Flexible thiophene polymers: A concerted macromolecular architecture for dielectrics

Xiaodong Yin; Yali Qiao; Matthew R. Gadinski; Qing Wang; Chuanbing Tang

doi:10.1039/c6py00233a

Flexible thiophene polymers: A concerted macromolecular architecture for dielectrics

Xiaodong Yin, Yali Qiao, Matthew R. Gadinski, Qing Wang, Chuanbing Tang^*

^*Corresponding author for this work

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

31 Citations (Scopus)

Abstract

The design of novel dielectric polymers currently employs approaches on capitalizing main-chain and side-chain architectures respectively. This paper reports a concerted macromolecular architecture synergistically tuning both the polymeric backbone and side chain. Our approach relies on an oligomer thiophene side chain and a norbornene backbone. This architecture results in highly flexible and transparent dielectric polymers, superior to methacrylate polymer counterparts. A facile hydrogenation of the polynorbornene backbone results in more than two fold increase in the electric field breakdown strength with the conservation of low dielectric loss.

Original language	English
Pages (from-to)	2929-2933
Number of pages	5
Journal	Polymer Chemistry
Volume	7
Issue number	17
DOIs	https://doi.org/10.1039/c6py00233a
Publication status	Published - 17 May 2016
Externally published	Yes

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title = "Flexible thiophene polymers: A concerted macromolecular architecture for dielectrics",

abstract = "The design of novel dielectric polymers currently employs approaches on capitalizing main-chain and side-chain architectures respectively. This paper reports a concerted macromolecular architecture synergistically tuning both the polymeric backbone and side chain. Our approach relies on an oligomer thiophene side chain and a norbornene backbone. This architecture results in highly flexible and transparent dielectric polymers, superior to methacrylate polymer counterparts. A facile hydrogenation of the polynorbornene backbone results in more than two fold increase in the electric field breakdown strength with the conservation of low dielectric loss.",

author = "Xiaodong Yin and Yali Qiao and Gadinski, {Matthew R.} and Qing Wang and Chuanbing Tang",

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AU - Yin, Xiaodong

AU - Qiao, Yali

AU - Gadinski, Matthew R.

AU - Wang, Qing

AU - Tang, Chuanbing

PY - 2016/5/17

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N2 - The design of novel dielectric polymers currently employs approaches on capitalizing main-chain and side-chain architectures respectively. This paper reports a concerted macromolecular architecture synergistically tuning both the polymeric backbone and side chain. Our approach relies on an oligomer thiophene side chain and a norbornene backbone. This architecture results in highly flexible and transparent dielectric polymers, superior to methacrylate polymer counterparts. A facile hydrogenation of the polynorbornene backbone results in more than two fold increase in the electric field breakdown strength with the conservation of low dielectric loss.

AB - The design of novel dielectric polymers currently employs approaches on capitalizing main-chain and side-chain architectures respectively. This paper reports a concerted macromolecular architecture synergistically tuning both the polymeric backbone and side chain. Our approach relies on an oligomer thiophene side chain and a norbornene backbone. This architecture results in highly flexible and transparent dielectric polymers, superior to methacrylate polymer counterparts. A facile hydrogenation of the polynorbornene backbone results in more than two fold increase in the electric field breakdown strength with the conservation of low dielectric loss.

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Flexible thiophene polymers: A concerted macromolecular architecture for dielectrics

Abstract

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