Raman characterization and electrical properties of poly(3-hexylthiophene) doped electrochemically in an ionic liquid-gated transistor geometry

Using Raman spectroscopy, we observed carriers, polarons and bipolarons formed in an ionic-liquid-gated P3HT electrochemical transistor with an ionic liquid [BMIM][TFSI] as a gate dielectric. The relationships between the source−drain current (ID), the gate voltage (VG) at a constant source−drain vo...

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Published inOrganic electronics Vol. 28; pp. 82 - 87
Main Authors Yamamoto, Jun, Furukawa, Yukio
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.01.2016
Subjects
Bipolaron
Ionic liquid
Organic transistor
Polaron
poly(3-hexylthiophene)
Raman
Organic transistor
Polaron
poly(3-hexylthiophene)
Raman
Bipolaron
Ionic liquid
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Abstract Using Raman spectroscopy, we observed carriers, polarons and bipolarons formed in an ionic-liquid-gated P3HT electrochemical transistor with an ionic liquid [BMIM][TFSI] as a gate dielectric. The relationships between the source−drain current (ID), the gate voltage (VG) at a constant source−drain voltage (VD), and injected charges at each VG were investigated. An increase in ID is attributed to the formation of positive polarons, whereas a decrease in ID corresponded to positive bipolarons. Thus, positive polarons are efficient carriers in P3HT electrochemical transistors. Charge densities, doping levels, electrical conductivities, and mobilities of polarons in P3HT were calculated from the electrochemical measurements. Only positive polarons exist below the dopant level x = 27 mol%, whereas at higher doping levels, polarons and bipolarons coexist. The mobility of polarons was dependent on the doping level. The highest mobility was 0.31 cm2 V−1 s−1 at x = 15 mol%. [Display omitted] •Positive polarons and bipolarons were detected by Raman spectroscopy.•An increase in drain current was attributed to polarons.•A drain current decrease which is undesirable for the transistor was attributed to bipolarons.•Only polarons exist below the doping level 27 mol%.•The highest mobility of positive polarons was 0.31 cm2 V−1 s−1 at x = 15 mol%.
AbstractList Using Raman spectroscopy, we observed carriers, polarons and bipolarons formed in an ionic-liquid-gated P3HT electrochemical transistor with an ionic liquid [BMIM][TFSI] as a gate dielectric. The relationships between the source−drain current (ID), the gate voltage (VG) at a constant source−drain voltage (VD), and injected charges at each VG were investigated. An increase in ID is attributed to the formation of positive polarons, whereas a decrease in ID corresponded to positive bipolarons. Thus, positive polarons are efficient carriers in P3HT electrochemical transistors. Charge densities, doping levels, electrical conductivities, and mobilities of polarons in P3HT were calculated from the electrochemical measurements. Only positive polarons exist below the dopant level x = 27 mol%, whereas at higher doping levels, polarons and bipolarons coexist. The mobility of polarons was dependent on the doping level. The highest mobility was 0.31 cm2 V−1 s−1 at x = 15 mol%. [Display omitted] •Positive polarons and bipolarons were detected by Raman spectroscopy.•An increase in drain current was attributed to polarons.•A drain current decrease which is undesirable for the transistor was attributed to bipolarons.•Only polarons exist below the doping level 27 mol%.•The highest mobility of positive polarons was 0.31 cm2 V−1 s−1 at x = 15 mol%.
Author Yamamoto, Jun
Furukawa, Yukio
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  surname: Furukawa
  fullname: Furukawa, Yukio
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Keywords Organic transistor
Polaron
poly(3-hexylthiophene)
Raman
Bipolaron
Ionic liquid
Language English
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Snippet Using Raman spectroscopy, we observed carriers, polarons and bipolarons formed in an ionic-liquid-gated P3HT electrochemical transistor with an ionic liquid...
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StartPage 82
SubjectTerms Bipolaron
Ionic liquid
Organic transistor
Polaron
poly(3-hexylthiophene)
Raman
Title Raman characterization and electrical properties of poly(3-hexylthiophene) doped electrochemically in an ionic liquid-gated transistor geometry
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