Temperature dependence of mobility of conducting polymer polyaniline with secondary dopant

Kazumasa Yamada; Bunju Shinozaki; Takashi Narikiyo; Yousuke Takigawa; Norihiro Kuroda; Toru Bando; Hiroaki Nakamura

doi:10.1016/j.synthmet.2018.11.019

Temperature dependence of mobility of conducting polymer polyaniline with secondary dopant

Kazumasa Yamada, Bunju Shinozaki, Takashi Narikiyo, Yousuke Takigawa, Norihiro Kuroda, Toru Bando, Hiroaki Nakamura

Condensed Matter Physics

Research output: Contribution to journal › Article › peer-review

12 Citations (Scopus)

Abstract

The conductivity σ and carrier density n of the conducting polymer polyaniline were investigated by changing the concentration x of a secondary dopant, meta-cresol. We found that σ changes by four orders of magnitude within the x-range of 1–10%, while n, as estimated from the Hall measurements, shows a weak dependence on x in the region of 2% < x < 50%. These results suggest that σ can be enhanced by the change in the mobility μ. We analyzed the temperature dependence of μ by not only the combination of two different types of scattering mechanism, but also by the polaron hopping model. The experimental data of μ(T) can be explained well by the latter model with reasonable fitting parameter values of a small-polaron binding energy and a longitudinal optical phonon frequency.

Original language	English
Pages (from-to)	124-130
Number of pages	7
Journal	Synthetic Metals
Volume	247
DOIs	https://doi.org/10.1016/j.synthmet.2018.11.019
Publication status	Published - Jan 2019

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering
Metals and Alloys
Materials Chemistry

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10.1016/j.synthmet.2018.11.019

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title = "Temperature dependence of mobility of conducting polymer polyaniline with secondary dopant",

abstract = "The conductivity σ and carrier density n of the conducting polymer polyaniline were investigated by changing the concentration x of a secondary dopant, meta-cresol. We found that σ changes by four orders of magnitude within the x-range of 1–10%, while n, as estimated from the Hall measurements, shows a weak dependence on x in the region of 2% < x < 50%. These results suggest that σ can be enhanced by the change in the mobility μ. We analyzed the temperature dependence of μ by not only the combination of two different types of scattering mechanism, but also by the polaron hopping model. The experimental data of μ(T) can be explained well by the latter model with reasonable fitting parameter values of a small-polaron binding energy and a longitudinal optical phonon frequency.",

author = "Kazumasa Yamada and Bunju Shinozaki and Takashi Narikiyo and Yousuke Takigawa and Norihiro Kuroda and Toru Bando and Hiroaki Nakamura",

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T1 - Temperature dependence of mobility of conducting polymer polyaniline with secondary dopant

AU - Yamada, Kazumasa

AU - Shinozaki, Bunju

AU - Narikiyo, Takashi

AU - Takigawa, Yousuke

AU - Kuroda, Norihiro

AU - Bando, Toru

AU - Nakamura, Hiroaki

PY - 2019/1

Y1 - 2019/1

N2 - The conductivity σ and carrier density n of the conducting polymer polyaniline were investigated by changing the concentration x of a secondary dopant, meta-cresol. We found that σ changes by four orders of magnitude within the x-range of 1–10%, while n, as estimated from the Hall measurements, shows a weak dependence on x in the region of 2% < x < 50%. These results suggest that σ can be enhanced by the change in the mobility μ. We analyzed the temperature dependence of μ by not only the combination of two different types of scattering mechanism, but also by the polaron hopping model. The experimental data of μ(T) can be explained well by the latter model with reasonable fitting parameter values of a small-polaron binding energy and a longitudinal optical phonon frequency.

AB - The conductivity σ and carrier density n of the conducting polymer polyaniline were investigated by changing the concentration x of a secondary dopant, meta-cresol. We found that σ changes by four orders of magnitude within the x-range of 1–10%, while n, as estimated from the Hall measurements, shows a weak dependence on x in the region of 2% < x < 50%. These results suggest that σ can be enhanced by the change in the mobility μ. We analyzed the temperature dependence of μ by not only the combination of two different types of scattering mechanism, but also by the polaron hopping model. The experimental data of μ(T) can be explained well by the latter model with reasonable fitting parameter values of a small-polaron binding energy and a longitudinal optical phonon frequency.

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JO - Synthetic Metals

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ER -

Temperature dependence of mobility of conducting polymer polyaniline with secondary dopant

Abstract

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