Bandgap Engineering Through Controlled Oxidation of Polythiophenes

Overview

Journal Angew Chem Int Ed Engl

Specialty Chemistry

Date 2014 Feb 8

PMID 24505004

Citations 6

Authors

Sujun Wei

Jianlong Xia

Emma J Dell

Yivan Jiang

Rui Song

Hyunbok Lee

Philip Rodenbough

Alejandro L Briseno

Luis M Campos

Affiliations

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Abstract

The use of Rozen's reagent (HOF⋅CH3 CN) to convert polythiophenes to polymers containing thiophene-1,1-dioxide (TDO) is described. The oxidation of polythiophenes can be controlled with this potent, yet orthogonal reagent under mild conditions. The oxidation of poly(3-alkylthiophenes) proceeds at room temperature in a matter of minutes, introducing up to 60 % TDO moieties in the polymer backbone. The resulting polymers have a markedly low-lying lowest unoccupied molecular orbital (LUMO), consequently exhibiting a small bandgap. This approach demonstrates that modulating the backbone electronic structure of well-defined polymers, rather than varying the monomers, is an efficient means of tuning the electronic properties of conjugated polymers.

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