Synthesis of ZnO Nanocrystals and Application in Inverted Polymer Solar Cells

Jing Jing Dong; Jian Wu; Hui Ying Hao; Jie Xing; Hao Liu; Hua Gao

doi:10.1186/s11671-017-2283-6

Synthesis of ZnO Nanocrystals and Application in Inverted Polymer Solar Cells

Jing Jing Dong, Jian Wu, Hui Ying Hao, Jie Xing, Hao Liu, Hua Gao

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

14 Scopus citations

Abstract

Controllable synthesis of various ZnO nanocrystals was achieved via a simple and cost-effective hydrothermal process. The morphology evolution of the ZnO nanostructures was well monitored by tuning hydrothermal growth parameters, such as solution concentration, reaction temperature, and surfactant. As-obtained ZnO nanocrystals with different morphologies, e.g., ZnO nanorods, nanotetrapods, nanoflowers, and nanocubes, were further introduced into the organic bulk heterojunction solar cells as the electron transport channel. It was found that the device performance was closely related to the morphology of the ZnO nanocrystals.

Original language	English
Article number	529
Journal	Nanoscale Research Letters
Volume	12
DOIs	https://doi.org/10.1186/s11671-017-2283-6
State	Published - 2017
Externally published	Yes

Funding

This work was financially supported by “the National Natural Science Foundation of China” (Grand No. 11404293).

Keywords

Hydrothermal
Nanocrystals
Solar cells
Zinc oxide

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10.1186/s11671-017-2283-6

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title = "Synthesis of ZnO Nanocrystals and Application in Inverted Polymer Solar Cells",

abstract = "Controllable synthesis of various ZnO nanocrystals was achieved via a simple and cost-effective hydrothermal process. The morphology evolution of the ZnO nanostructures was well monitored by tuning hydrothermal growth parameters, such as solution concentration, reaction temperature, and surfactant. As-obtained ZnO nanocrystals with different morphologies, e.g., ZnO nanorods, nanotetrapods, nanoflowers, and nanocubes, were further introduced into the organic bulk heterojunction solar cells as the electron transport channel. It was found that the device performance was closely related to the morphology of the ZnO nanocrystals.",

keywords = "Hydrothermal, Nanocrystals, Solar cells, Zinc oxide",

author = "Dong, {Jing Jing} and Jian Wu and Hao, {Hui Ying} and Jie Xing and Hao Liu and Hua Gao",

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doi = "10.1186/s11671-017-2283-6",

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T1 - Synthesis of ZnO Nanocrystals and Application in Inverted Polymer Solar Cells

AU - Dong, Jing Jing

AU - Wu, Jian

AU - Hao, Hui Ying

AU - Xing, Jie

AU - Liu, Hao

AU - Gao, Hua

PY - 2017

Y1 - 2017

N2 - Controllable synthesis of various ZnO nanocrystals was achieved via a simple and cost-effective hydrothermal process. The morphology evolution of the ZnO nanostructures was well monitored by tuning hydrothermal growth parameters, such as solution concentration, reaction temperature, and surfactant. As-obtained ZnO nanocrystals with different morphologies, e.g., ZnO nanorods, nanotetrapods, nanoflowers, and nanocubes, were further introduced into the organic bulk heterojunction solar cells as the electron transport channel. It was found that the device performance was closely related to the morphology of the ZnO nanocrystals.

AB - Controllable synthesis of various ZnO nanocrystals was achieved via a simple and cost-effective hydrothermal process. The morphology evolution of the ZnO nanostructures was well monitored by tuning hydrothermal growth parameters, such as solution concentration, reaction temperature, and surfactant. As-obtained ZnO nanocrystals with different morphologies, e.g., ZnO nanorods, nanotetrapods, nanoflowers, and nanocubes, were further introduced into the organic bulk heterojunction solar cells as the electron transport channel. It was found that the device performance was closely related to the morphology of the ZnO nanocrystals.

KW - Hydrothermal

KW - Nanocrystals

KW - Solar cells

KW - Zinc oxide

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M3 - Article

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SN - 1931-7573

VL - 12

JO - Nanoscale Research Letters

JF - Nanoscale Research Letters

M1 - 529

ER -

Synthesis of ZnO Nanocrystals and Application in Inverted Polymer Solar Cells

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Keywords

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