Photocurrent-boosting by intramembrane electron mediation between titania nanoparticles dispersed into nafion-porphyrin composites

Atsushi Ikeda; Youichi Tsuchiya; Toshifumi Konishi; Shin Ogasawara; Jun Ichi Kikuchi

doi:10.1021/cm050692w

Photocurrent-boosting by intramembrane electron mediation between titania nanoparticles dispersed into nafion-porphyrin composites

Atsushi Ikeda, Youichi Tsuchiya, Toshifumi Konishi, Shin Ogasawara, Jun Ichi Kikuchi

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

14 Citations (Scopus)

Abstract

We have used titania nanoparticles (TiO₂) to establish a facile preparation of a highly photoresponsible membrane. An improved photocurrent generator was prepared easily using spin coating of a Nafion/ porphyrin/TiO ₂ mixture on an indium-tin-oxide substrate. Generated photocurrent density was about 10 times higher than that in the absence of TiO₂. The resultant electrode shows distinct photocurrent generation despite impediments derived from high dye-concentration (i.e., self-quenching of photoexcited states) and membrane thickness (i.e., losses of electron flow passing through membrane into electrode). Photocurrent densities increased linearly concomitant with high surface concentrations of porphyrin and high membrane thickness. It became evident that TiO₂ contributes to more efficient photocurrent generation by intramembrane electron mediation.

Original language	English
Pages (from-to)	4018-4022
Number of pages	5
Journal	Chemistry of Materials
Volume	17
Issue number	15
DOIs	https://doi.org/10.1021/cm050692w
Publication status	Published - 2005 Jul 26
Externally published	Yes

ASJC Scopus subject areas

Chemistry(all)
Chemical Engineering(all)
Materials Chemistry

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title = "Photocurrent-boosting by intramembrane electron mediation between titania nanoparticles dispersed into nafion-porphyrin composites",

abstract = "We have used titania nanoparticles (TiO2) to establish a facile preparation of a highly photoresponsible membrane. An improved photocurrent generator was prepared easily using spin coating of a Nafion/ porphyrin/TiO 2 mixture on an indium-tin-oxide substrate. Generated photocurrent density was about 10 times higher than that in the absence of TiO2. The resultant electrode shows distinct photocurrent generation despite impediments derived from high dye-concentration (i.e., self-quenching of photoexcited states) and membrane thickness (i.e., losses of electron flow passing through membrane into electrode). Photocurrent densities increased linearly concomitant with high surface concentrations of porphyrin and high membrane thickness. It became evident that TiO2 contributes to more efficient photocurrent generation by intramembrane electron mediation.",

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T1 - Photocurrent-boosting by intramembrane electron mediation between titania nanoparticles dispersed into nafion-porphyrin composites

AU - Ikeda, Atsushi

AU - Tsuchiya, Youichi

AU - Konishi, Toshifumi

AU - Ogasawara, Shin

AU - Kikuchi, Jun Ichi

PY - 2005/7/26

Y1 - 2005/7/26

N2 - We have used titania nanoparticles (TiO2) to establish a facile preparation of a highly photoresponsible membrane. An improved photocurrent generator was prepared easily using spin coating of a Nafion/ porphyrin/TiO 2 mixture on an indium-tin-oxide substrate. Generated photocurrent density was about 10 times higher than that in the absence of TiO2. The resultant electrode shows distinct photocurrent generation despite impediments derived from high dye-concentration (i.e., self-quenching of photoexcited states) and membrane thickness (i.e., losses of electron flow passing through membrane into electrode). Photocurrent densities increased linearly concomitant with high surface concentrations of porphyrin and high membrane thickness. It became evident that TiO2 contributes to more efficient photocurrent generation by intramembrane electron mediation.

AB - We have used titania nanoparticles (TiO2) to establish a facile preparation of a highly photoresponsible membrane. An improved photocurrent generator was prepared easily using spin coating of a Nafion/ porphyrin/TiO 2 mixture on an indium-tin-oxide substrate. Generated photocurrent density was about 10 times higher than that in the absence of TiO2. The resultant electrode shows distinct photocurrent generation despite impediments derived from high dye-concentration (i.e., self-quenching of photoexcited states) and membrane thickness (i.e., losses of electron flow passing through membrane into electrode). Photocurrent densities increased linearly concomitant with high surface concentrations of porphyrin and high membrane thickness. It became evident that TiO2 contributes to more efficient photocurrent generation by intramembrane electron mediation.

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Photocurrent-boosting by intramembrane electron mediation between titania nanoparticles dispersed into nafion-porphyrin composites

Abstract

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