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An n‐Type Polythiophene Derivative with Excellent Thermoelectric Performance

Sihui Deng, Changshuai Dong, Jian Liu, Jian Liu, Bin Meng, Junli Hu, Min Yang, Hongkun Tian, Jun Liu, Jun Liu, Lixiang Wang

2023Angewandte Chemie International Edition72 citationsDOIOpen Access PDF

Abstract

Abstract Typical n‐type conjugated polymers are based on fused‐ring electron‐accepting building blocks. Herein, we report a non‐fused‐ring strategy to design n‐type conjugated polymers, i.e. introducing electron‐withdrawing imide or cyano groups to each thiophene unit of a non‐fused‐ring polythiophene backbone. The resulting polymer, n‐PT1 , shows low LUMO/HOMO energy levels of −3.91 eV/−6.22 eV, high electron mobility of 0.39 cm 2 V −1 s −1 and high crystallinity in thin film. After n‐doping, n‐PT1 exhibits excellent thermoelectric performance with an electrical conductivity of 61.2 S cm −1 and a power factor ( PF ) of 141.7 μW m −1 K −2 . This PF is the highest value reported so far for n‐type conjugated polymers and this is the first time for polythiophene derivatives to be used in n‐type organic thermoelectrics. The excellent thermoelectric performance of n‐PT1 is due to its superior tolerance to doping. This work indicates that polythiophene derivatives without fused rings are low‐cost and high‐performance n‐type conjugated polymers.

Topics & Concepts

PolythiopheneConjugated systemMaterials scienceThiophenePolymerThermoelectric effectHOMO/LUMOSeebeck coefficientDopingCrystallinityConductive polymerRing (chemistry)Polymer chemistryOptoelectronicsOrganic chemistryChemistryComposite materialMoleculeThermodynamicsPhysicsThermal conductivityOrganic Electronics and PhotovoltaicsConducting polymers and applicationsPerovskite Materials and Applications