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Great Enhancement in the Seebeck Coefficient of PEDOT:PSS by Polaron Level Splitting via π–π Overlapping with Nonpolar Small Aromatic Molecules

Chang’an Li, Chengwei Shan, Dou Luo, Xiaoyu Gu, Qiujian Le, Aung Ko Ko Kyaw, Zhen Dong, Kuan Sun, Jianyong Ouyang

2023Advanced Functional Materials27 citationsDOI

Abstract

Abstract Organic thermoelectric (TE) materials are regarded as the next‐generation TE materials because of their merits including low cost, high mechanical flexibility, and low intrinsic thermal conductivity. However, their Seebeck coefficient is usually quite low. Herein, a new strategy is demonstrated to greatly enhance the Seebeck coefficient of poly(3,4‐ethylenedioxy‐thiophene):poly(styrenesulfonate) (PEDOT:PSS), which is the most popular TE polymer, through polaron level splitting via π–π overlapping with nonpolar small aromatic molecules including anthracene, naphthalene, and pyrene. Although these aromatic molecules are neither oxidizing nor reducing agent, they can greatly enhance the Seebeck coefficient of PEDOT:PSS films pre‐treated with dimethyl sulfoxide, acid, or acid then base, while they do not lower the electrical conductivity too much. Through such a treatment with anthracene, the Seebeck coefficient can be up to 45.5 µV K −1 , and the ZT value can be up to 0.27. The enhancement is ascribed to the splitting of the lower polaron energy level of PEDOT, which is induced by the π–π overlapping between the aromatic compounds and conjugated PEDOT. This can shift up the Fermi level, thereby enhancing the Seebeck coefficient.

Topics & Concepts

Seebeck coefficientMaterials scienceAnthracenePEDOT:PSSThermoelectric effectPolaronThiopheneOxidizing agentThermoelectric materialsChemical physicsThermal conductivityPhotochemistryPolymerOrganic chemistryThermodynamicsComposite materialChemistryPhysicsElectronQuantum mechanicsAdvanced Thermoelectric Materials and DevicesConducting polymers and applicationsThermal properties of materials
Great Enhancement in the Seebeck Coefficient of PEDOT:PSS by Polaron Level Splitting via π–π Overlapping with Nonpolar Small Aromatic Molecules | Litcius