Far- and mid-infrared FT-IR analysis of the single-crystal pentacene using a linearly polarized synchrotron radiation light source

Yasuo Nakayama; Junnosuke Miyamoto; Kaname Yamauchi; Yuya Baba; Fumitsuna Teshima; Kiyohisa Tanaka

doi:10.1016/j.vibspec.2024.103681

Far- and mid-infrared FT-IR analysis of the single-crystal pentacene using a linearly polarized synchrotron radiation light source

Yasuo Nakayama, Junnosuke Miyamoto, Kaname Yamauchi, Yuya Baba, Fumitsuna Teshima, Kiyohisa Tanaka

Department of Pure and Applied Chemistry

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

3 Citations (Scopus)

Abstract

Understanding and control of molecular vibrations are essential aspects for both fundamental and application considerations of organic semiconductor electronics. The reason is that the organic electronic devices are driven by diverse electronic processes in molecular solids, such as charge carrier transport and excitonic progression, that are strongly influenced by coupling with vibrations. In the present study, molecular vibrations of single-crystals of pentacene, a representative organic semiconductor material, were examined in the far- to mid-infrared range by means of Fourier transform infrared (FT-IR) spectroscopy using a linearly polarized synchrotron radiation light source. The IR absorption spectra exhibited significant modulation depending on the crystalline in-plane azimuthasl angle of c*-oriented single-crystal pentacene.

Original language	English
Article number	103681
Journal	Vibrational Spectroscopy
Volume	132
DOIs	https://doi.org/10.1016/j.vibspec.2024.103681
Publication status	Published - May 2024

Keywords

Azimuthal dependence
Davydov splitting
Fourier transform infrared spectroscopy
Pentacene single crystal

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10.1016/j.vibspec.2024.103681

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title = "Far- and mid-infrared FT-IR analysis of the single-crystal pentacene using a linearly polarized synchrotron radiation light source",

abstract = "Understanding and control of molecular vibrations are essential aspects for both fundamental and application considerations of organic semiconductor electronics. The reason is that the organic electronic devices are driven by diverse electronic processes in molecular solids, such as charge carrier transport and excitonic progression, that are strongly influenced by coupling with vibrations. In the present study, molecular vibrations of single-crystals of pentacene, a representative organic semiconductor material, were examined in the far- to mid-infrared range by means of Fourier transform infrared (FT-IR) spectroscopy using a linearly polarized synchrotron radiation light source. The IR absorption spectra exhibited significant modulation depending on the crystalline in-plane azimuthasl angle of c*-oriented single-crystal pentacene.",

keywords = "Azimuthal dependence, Davydov splitting, Fourier transform infrared spectroscopy, Pentacene single crystal",

author = "Yasuo Nakayama and Junnosuke Miyamoto and Kaname Yamauchi and Yuya Baba and Fumitsuna Teshima and Kiyohisa Tanaka",

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T1 - Far- and mid-infrared FT-IR analysis of the single-crystal pentacene using a linearly polarized synchrotron radiation light source

AU - Nakayama, Yasuo

AU - Miyamoto, Junnosuke

AU - Yamauchi, Kaname

AU - Baba, Yuya

AU - Teshima, Fumitsuna

AU - Tanaka, Kiyohisa

PY - 2024/5

Y1 - 2024/5

N2 - Understanding and control of molecular vibrations are essential aspects for both fundamental and application considerations of organic semiconductor electronics. The reason is that the organic electronic devices are driven by diverse electronic processes in molecular solids, such as charge carrier transport and excitonic progression, that are strongly influenced by coupling with vibrations. In the present study, molecular vibrations of single-crystals of pentacene, a representative organic semiconductor material, were examined in the far- to mid-infrared range by means of Fourier transform infrared (FT-IR) spectroscopy using a linearly polarized synchrotron radiation light source. The IR absorption spectra exhibited significant modulation depending on the crystalline in-plane azimuthasl angle of c*-oriented single-crystal pentacene.

AB - Understanding and control of molecular vibrations are essential aspects for both fundamental and application considerations of organic semiconductor electronics. The reason is that the organic electronic devices are driven by diverse electronic processes in molecular solids, such as charge carrier transport and excitonic progression, that are strongly influenced by coupling with vibrations. In the present study, molecular vibrations of single-crystals of pentacene, a representative organic semiconductor material, were examined in the far- to mid-infrared range by means of Fourier transform infrared (FT-IR) spectroscopy using a linearly polarized synchrotron radiation light source. The IR absorption spectra exhibited significant modulation depending on the crystalline in-plane azimuthasl angle of c*-oriented single-crystal pentacene.

KW - Azimuthal dependence

KW - Davydov splitting

KW - Fourier transform infrared spectroscopy

KW - Pentacene single crystal

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Far- and mid-infrared FT-IR analysis of the single-crystal pentacene using a linearly polarized synchrotron radiation light source

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Keywords

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