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High‐Performance n‐Type Polymeric Mixed Ionic‐Electronic Conductors: The Impacts of Halogen Functionalization

Wanli Yang, Kui Feng, Suxiang Ma, Bin Liu, Yimei Wang, Riqing Ding, Sang Young Jeong, Han Young Woo, Paddy K. L. Chan, Xugang Guo

2023Advanced Materials43 citationsDOI

Abstract

Abstract Developing high‐performance n‐type polymer mixed ionic‐electronic conductors (PMIECs) is a grand challenge, which largely determines their applications in vaious organic electronic devices, such as organic electrochemical transistors (OECTs) and organic thermoelectrics (OTEs). Herein, two halogen‐functionalized PMIECs f‐BTI2g‐TVTF and f‐BTI2g‐TVTCl built from fused bithiophene imide dimer (f‐BTI2) as the acceptor unit and halogenated thienylene–vinylene–thienylene (TVT) as the donor co‐unit are reported. Compared to the control polymer f‐BTI2g‐TVT, the fluorinated f‐BTI2g‐TVTF shows lower‐positioned lowest unoccupied molecular orbital (LUMO), improved charge transport property, and greater ion uptake capacity. Consequently, f‐BTI2g‐TVTF delivers a state‐of‐the‐art µ C* of 90.2 F cm −1 V −1 s −1 with a remarkable electron mobility of 0.41 cm 2 V −1 s −1 in OECTs and an excellent power factor of 64.2 µW m −1 K −2 in OTEs. An OECT‐based inverter amplifier is further demonstrated with voltage gain up to 148 V V −1 , which is among the highest values for OECT inverters. Such results shed light on the impacts of halogen atoms on developing high‐performing n‐type PMIECs.

Topics & Concepts

Materials scienceHOMO/LUMOAcceptorHalogenIonic bondingConductive polymerElectrochemistryOrganic solar cellSurface modificationPolymerNanotechnologyPolymer chemistryIonOrganic chemistryPhysical chemistryMoleculeChemistryAlkylCondensed matter physicsElectrodePhysicsComposite materialIonic liquids properties and applicationsConducting polymers and applicationsOrganic and Molecular Conductors Research
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