Energy-level and molecular engineering of organic D-π-A sensitizers in dye-sensitized solar cells

Mingfei Xu; Renzhi Li; Nuttapol Pootrakulchote; Dong Shi; Jin Guo; Zhihui Yi; Shaik M. Zakeeruddin; Michael Grätzel; Peng Wang

doi:10.1021/jp808275z

Energy-level and molecular engineering of organic D-π-A sensitizers in dye-sensitized solar cells

Mingfei Xu, Renzhi Li, Nuttapol Pootrakulchote, Dong Shi, Jin Guo, Zhihui Yi, Shaik M. Zakeeruddin, Michael Grätzel, Peng Wang

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

178 Scopus citations

Abstract

A series of organic D-π-A sensitizers composed of different triarylamine donors in conjugation with the thienothiophene unit and cyanoacrylic acid as an acceptor has been synthesized at a moderate yield. Through tuning the number of methoxy substituents on the triphenylamine donor, we have gradually red-shifted the absorption of sensitizers to enhance device efficiencies. Further molecular engineering by the substitution of two hexyloxy chains in place of the methoxy groups allows fabricating a solvent-free dye-sensitized solar cell with a power conversion efficiency of 7.05% measured under the air mass 1.5 global sunlight. Time- and frequency-domain photoelectrical techniques have been employed to scrutinize the aliphatic chain effects with a close inspection on effective electron lifetime, diffusion coefficient, and diffusion length.

Original language	English
Pages (from-to)	19770-19776
Number of pages	7
Journal	Journal of Physical Chemistry C
Volume	112
Issue number	49
DOIs	https://doi.org/10.1021/jp808275z
State	Published - 11 Dec 2008
Externally published	Yes

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title = "Energy-level and molecular engineering of organic D-π-A sensitizers in dye-sensitized solar cells",

abstract = "A series of organic D-π-A sensitizers composed of different triarylamine donors in conjugation with the thienothiophene unit and cyanoacrylic acid as an acceptor has been synthesized at a moderate yield. Through tuning the number of methoxy substituents on the triphenylamine donor, we have gradually red-shifted the absorption of sensitizers to enhance device efficiencies. Further molecular engineering by the substitution of two hexyloxy chains in place of the methoxy groups allows fabricating a solvent-free dye-sensitized solar cell with a power conversion efficiency of 7.05% measured under the air mass 1.5 global sunlight. Time- and frequency-domain photoelectrical techniques have been employed to scrutinize the aliphatic chain effects with a close inspection on effective electron lifetime, diffusion coefficient, and diffusion length.",

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AU - Xu, Mingfei

AU - Li, Renzhi

AU - Pootrakulchote, Nuttapol

AU - Shi, Dong

AU - Guo, Jin

AU - Yi, Zhihui

AU - Zakeeruddin, Shaik M.

AU - Grätzel, Michael

AU - Wang, Peng

PY - 2008/12/11

Y1 - 2008/12/11

N2 - A series of organic D-π-A sensitizers composed of different triarylamine donors in conjugation with the thienothiophene unit and cyanoacrylic acid as an acceptor has been synthesized at a moderate yield. Through tuning the number of methoxy substituents on the triphenylamine donor, we have gradually red-shifted the absorption of sensitizers to enhance device efficiencies. Further molecular engineering by the substitution of two hexyloxy chains in place of the methoxy groups allows fabricating a solvent-free dye-sensitized solar cell with a power conversion efficiency of 7.05% measured under the air mass 1.5 global sunlight. Time- and frequency-domain photoelectrical techniques have been employed to scrutinize the aliphatic chain effects with a close inspection on effective electron lifetime, diffusion coefficient, and diffusion length.

AB - A series of organic D-π-A sensitizers composed of different triarylamine donors in conjugation with the thienothiophene unit and cyanoacrylic acid as an acceptor has been synthesized at a moderate yield. Through tuning the number of methoxy substituents on the triphenylamine donor, we have gradually red-shifted the absorption of sensitizers to enhance device efficiencies. Further molecular engineering by the substitution of two hexyloxy chains in place of the methoxy groups allows fabricating a solvent-free dye-sensitized solar cell with a power conversion efficiency of 7.05% measured under the air mass 1.5 global sunlight. Time- and frequency-domain photoelectrical techniques have been employed to scrutinize the aliphatic chain effects with a close inspection on effective electron lifetime, diffusion coefficient, and diffusion length.

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Energy-level and molecular engineering of organic D-π-A sensitizers in dye-sensitized solar cells

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