Correlation between the morphology and performance enhancement of ZnO hierarchical flower photoanodes in quasi-solid dye-sensitized solar cells

Chao Zhu; Yantao Shi; Chun Cheng; Lin Wang; Kwok Kwong Fung; Ning Wang

doi:10.1155/2012/212653

Correlation between the morphology and performance enhancement of ZnO hierarchical flower photoanodes in quasi-solid dye-sensitized solar cells

Chao Zhu, Yantao Shi, Chun Cheng, Lin Wang, Kwok Kwong Fung, Ning Wang

Hong Kong University of Science and Technology

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

6 Scopus citations

Abstract

We report an effective method for mass production of ZnO hierarchical flowers (HFs) that are constructed by interlaced single crystalline ZnO nanosheets with dominant surfaces of {112̄0} and {11̄00}. The size of ZnO HFs, thickness and parking density of the nanosheets, and HF inner porosity can be tuned by changing the synthesis conditions. The HFs containing porous inner structures showed an excellent performance as the photoanode material in quasi-solid (using polymer gel electrolytes) dye-sensitized solar cells (DSCs) because of their superior optical and electrical properties. The high current density (10.26 mA cm^-2) and efficiency (4.93) of the HF-based DSCs indicate a great potential for the development of high-efficient quasi-solid DSCs.

Original language	English
Article number	212653
Journal	Journal of Nanomaterials
Volume	2012
DOIs	https://doi.org/10.1155/2012/212653
State	Published - 2012
Externally published	Yes

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title = "Correlation between the morphology and performance enhancement of ZnO hierarchical flower photoanodes in quasi-solid dye-sensitized solar cells",

abstract = "We report an effective method for mass production of ZnO hierarchical flowers (HFs) that are constructed by interlaced single crystalline ZnO nanosheets with dominant surfaces of {11{\=2}0} and {1{\=1}00}. The size of ZnO HFs, thickness and parking density of the nanosheets, and HF inner porosity can be tuned by changing the synthesis conditions. The HFs containing porous inner structures showed an excellent performance as the photoanode material in quasi-solid (using polymer gel electrolytes) dye-sensitized solar cells (DSCs) because of their superior optical and electrical properties. The high current density (10.26 mA cm-2) and efficiency (4.93) of the HF-based DSCs indicate a great potential for the development of high-efficient quasi-solid DSCs.",

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year = "2012",

doi = "10.1155/2012/212653",

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T1 - Correlation between the morphology and performance enhancement of ZnO hierarchical flower photoanodes in quasi-solid dye-sensitized solar cells

AU - Zhu, Chao

AU - Shi, Yantao

AU - Cheng, Chun

AU - Wang, Lin

AU - Fung, Kwok Kwong

AU - Wang, Ning

PY - 2012

Y1 - 2012

N2 - We report an effective method for mass production of ZnO hierarchical flowers (HFs) that are constructed by interlaced single crystalline ZnO nanosheets with dominant surfaces of {112̄0} and {11̄00}. The size of ZnO HFs, thickness and parking density of the nanosheets, and HF inner porosity can be tuned by changing the synthesis conditions. The HFs containing porous inner structures showed an excellent performance as the photoanode material in quasi-solid (using polymer gel electrolytes) dye-sensitized solar cells (DSCs) because of their superior optical and electrical properties. The high current density (10.26 mA cm-2) and efficiency (4.93) of the HF-based DSCs indicate a great potential for the development of high-efficient quasi-solid DSCs.

AB - We report an effective method for mass production of ZnO hierarchical flowers (HFs) that are constructed by interlaced single crystalline ZnO nanosheets with dominant surfaces of {112̄0} and {11̄00}. The size of ZnO HFs, thickness and parking density of the nanosheets, and HF inner porosity can be tuned by changing the synthesis conditions. The HFs containing porous inner structures showed an excellent performance as the photoanode material in quasi-solid (using polymer gel electrolytes) dye-sensitized solar cells (DSCs) because of their superior optical and electrical properties. The high current density (10.26 mA cm-2) and efficiency (4.93) of the HF-based DSCs indicate a great potential for the development of high-efficient quasi-solid DSCs.

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DO - 10.1155/2012/212653

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JO - Journal of Nanomaterials

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Correlation between the morphology and performance enhancement of ZnO hierarchical flower photoanodes in quasi-solid dye-sensitized solar cells

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