Thermoelectric properties of PEDOT/PSS films prepared by a Gel-film formation process

•Developing a technique for fabricating PEDOT/PSS films (gel-film formation process).•The film thickness can be controlled in the range of 1 to 30 μm.•The gel-film formation enhanced thermoelectric properties without commonly used pre- and post-treatment steps.•The values of σ=1070S/cm and S=16.0μV/...

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Veröffentlicht in:	Materials letters 2019-09, Vol.251, p.169-171
Hauptverfasser:	Maeda, Ryota, Kawakami, Hiroshi, Shinohara, Yoshikazu, Kanazawa, Ikuzo, Mitsuishi, Masaya
Format:	Artikel
Sprache:	eng
Schlagworte:	Conductive polymer Dependence Electrical resistivity Ethanol Film thickness Gelation Materials science Novel film fabrication Organic thermoelectric material PEDOT/PSS Seebeck effect Spin coating Thermoelectric materials Thermoelectricity
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creator	Maeda, Ryota Kawakami, Hiroshi Shinohara, Yoshikazu Kanazawa, Ikuzo Mitsuishi, Masaya
description	•Developing a technique for fabricating PEDOT/PSS films (gel-film formation process).•The film thickness can be controlled in the range of 1 to 30 μm.•The gel-film formation enhanced thermoelectric properties without commonly used pre- and post-treatment steps.•The values of σ=1070S/cm and S=16.0μV/K were achieved for d=1.1μm, using ethanol as the gelling solvent.•Ethanol plays the important roles of removing excess PSS and inducing subsequent gelling. We have developed a technique for fabricating films of the thermoelectric material, PEDOT/PSS, with enhanced thermoelectric properties via a gel-film formation process. The salient features of the process are 1) the absence of any commonly used pre- and post-treatment steps and 2) wide film thickness control. The new process is different from direct film-formation processes such as the spin-coating and drop-casting methods. The film thickness can be controlled in the range of 1 to 30 μm. In this study, we investigated the dependence of the electrical conductivity (σ) and Seebeck coefficient (S) on the film thickness (d). While the value of σ increased with decreasing d, S decreased slightly with decreasing d. By this process, values of σ=1070S/cm and S=16.0μV/K were achieved for d=1.1μm, using ethanol as the gelling solvent. Ethanol plays the important roles of removing excess PSS and inducing subsequent gelling.
doi_str_mv	10.1016/j.matlet.2019.05.005
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We have developed a technique for fabricating films of the thermoelectric material, PEDOT/PSS, with enhanced thermoelectric properties via a gel-film formation process. The salient features of the process are 1) the absence of any commonly used pre- and post-treatment steps and 2) wide film thickness control. The new process is different from direct film-formation processes such as the spin-coating and drop-casting methods. The film thickness can be controlled in the range of 1 to 30 μm. In this study, we investigated the dependence of the electrical conductivity (σ) and Seebeck coefficient (S) on the film thickness (d). While the value of σ increased with decreasing d, S decreased slightly with decreasing d. By this process, values of σ=1070S/cm and S=16.0μV/K were achieved for d=1.1μm, using ethanol as the gelling solvent. 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We have developed a technique for fabricating films of the thermoelectric material, PEDOT/PSS, with enhanced thermoelectric properties via a gel-film formation process. The salient features of the process are 1) the absence of any commonly used pre- and post-treatment steps and 2) wide film thickness control. The new process is different from direct film-formation processes such as the spin-coating and drop-casting methods. The film thickness can be controlled in the range of 1 to 30 μm. In this study, we investigated the dependence of the electrical conductivity (σ) and Seebeck coefficient (S) on the film thickness (d). While the value of σ increased with decreasing d, S decreased slightly with decreasing d. By this process, values of σ=1070S/cm and S=16.0μV/K were achieved for d=1.1μm, using ethanol as the gelling solvent. 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We have developed a technique for fabricating films of the thermoelectric material, PEDOT/PSS, with enhanced thermoelectric properties via a gel-film formation process. The salient features of the process are 1) the absence of any commonly used pre- and post-treatment steps and 2) wide film thickness control. The new process is different from direct film-formation processes such as the spin-coating and drop-casting methods. The film thickness can be controlled in the range of 1 to 30 μm. In this study, we investigated the dependence of the electrical conductivity (σ) and Seebeck coefficient (S) on the film thickness (d). While the value of σ increased with decreasing d, S decreased slightly with decreasing d. By this process, values of σ=1070S/cm and S=16.0μV/K were achieved for d=1.1μm, using ethanol as the gelling solvent. 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subjects	Conductive polymer Dependence Electrical resistivity Ethanol Film thickness Gelation Materials science Novel film fabrication Organic thermoelectric material PEDOT/PSS Seebeck effect Spin coating Thermoelectric materials Thermoelectricity
title	Thermoelectric properties of PEDOT/PSS films prepared by a Gel-film formation process
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