Modulating the assembly of organic dye molecules on titania nanocrystals via alkyl chain elongation for efficient mesoscopic cobalt solar cells

Yiming Cao; Ning Cai; Yinglin Wang; Renzhi Li; Yi Yuan; Peng Wang

doi:10.1039/c2cp41314k

Modulating the assembly of organic dye molecules on titania nanocrystals via alkyl chain elongation for efficient mesoscopic cobalt solar cells

Yiming Cao, Ning Cai, Yinglin Wang, Renzhi Li, Yi Yuan, Peng Wang

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

71 Scopus citations

Abstract

Through elongating the end or side alkyl chains of dye molecules, we decorate anatase nanocrystals with a thicker organic assembly featuring a smaller tilt angle of the D-π-A backbone with respect to the surface normal, which retards the interfacial charge recombination and confers a higher photovoltage output on mesoscopic cobalt solar cells displaying an over 10% power conversion efficiency at the AM1.5G conditions.

Original language	English
Pages (from-to)	8282-8286
Number of pages	5
Journal	Physical Chemistry Chemical Physics
Volume	14
Issue number	23
DOIs	https://doi.org/10.1039/c2cp41314k
State	Published - 21 Jun 2012
Externally published	Yes

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abstract = "Through elongating the end or side alkyl chains of dye molecules, we decorate anatase nanocrystals with a thicker organic assembly featuring a smaller tilt angle of the D-π-A backbone with respect to the surface normal, which retards the interfacial charge recombination and confers a higher photovoltage output on mesoscopic cobalt solar cells displaying an over 10% power conversion efficiency at the AM1.5G conditions.",

author = "Yiming Cao and Ning Cai and Yinglin Wang and Renzhi Li and Yi Yuan and Peng Wang",

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AU - Cao, Yiming

AU - Cai, Ning

AU - Wang, Yinglin

AU - Li, Renzhi

AU - Yuan, Yi

AU - Wang, Peng

PY - 2012/6/21

Y1 - 2012/6/21

N2 - Through elongating the end or side alkyl chains of dye molecules, we decorate anatase nanocrystals with a thicker organic assembly featuring a smaller tilt angle of the D-π-A backbone with respect to the surface normal, which retards the interfacial charge recombination and confers a higher photovoltage output on mesoscopic cobalt solar cells displaying an over 10% power conversion efficiency at the AM1.5G conditions.

AB - Through elongating the end or side alkyl chains of dye molecules, we decorate anatase nanocrystals with a thicker organic assembly featuring a smaller tilt angle of the D-π-A backbone with respect to the surface normal, which retards the interfacial charge recombination and confers a higher photovoltage output on mesoscopic cobalt solar cells displaying an over 10% power conversion efficiency at the AM1.5G conditions.

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M3 - 文章

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Modulating the assembly of organic dye molecules on titania nanocrystals via alkyl chain elongation for efficient mesoscopic cobalt solar cells

Abstract

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