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    Piezo‐Phototronic Effect Enhanced Flexible Solar Cells Based on n‐ZnO/p‐SnS Core–Shell Nanowire Array

    New search for: Zhu, Laipan
    New search for: Wang, Longfei
    New search for: Xue, Fei
    New search for: Chen, Libo
    New search for: Fu, Jianqiang
    New search for: Feng, Xiaolong
    New search for: Li, Tianfeng
    New search for: Wang, Zhong Lin

    The piezo‐phototronic effect is about the enhanced separation, transport, and recombination of the photogenerated carriers using the piezoelectric polarization charges present in piezoelectric‐semiconductor materials. Here, it is presented that the piezo‐phototronic effect can be effectively applied to improve the relative conversion efficiency of a flexible solar cell based on n‐ZnO/p‐SnS core–shell nanowire array for 37.3% under a moderate vertical pressure. The performance of the solar cell can be effectively enhanced by a gentle bending of the device, showing its potential for application in curly geometries. This study not only adds further understanding about the concept of increasing solar energy conversion efficiency via piezo‐phototronic effect, but also demonstrates the great potential of piezo‐phototronic effect in the application of large‐scale, flexible, and lightweight nanowire array solar cells.

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    Piezo‐Phototronic Effect Enhanced Flexible Solar Cells Based on n‐ZnO/p‐SnS Core–Shell Nanowire Array

    New search for: Zhu, Laipan
    New search for: Wang, Longfei
    New search for: Xue, Fei
    New search for: Chen, Libo
    New search for: Fu, Jianqiang
    New search for: Feng, Xiaolong
    New search for: Li, Tianfeng
    New search for: Wang, Zhong Lin

    The piezo‐phototronic effect is about the enhanced separation, transport, and recombination of the photogenerated carriers using the piezoelectric polarization charges present in piezoelectric‐semiconductor materials. Here, it is presented that the piezo‐phototronic effect can be effectively applied to improve the relative conversion efficiency of a flexible solar cell based on n‐ZnO/p‐SnS core–shell nanowire array for 37.3% under a moderate vertical pressure. The performance of the solar cell can be effectively enhanced by a gentle bending of the device, showing its potential for application in curly geometries. This study not only adds further understanding about the concept of increasing solar energy conversion efficiency via piezo‐phototronic effect, but also demonstrates the great potential of piezo‐phototronic effect in the application of large‐scale, flexible, and lightweight nanowire array solar cells.

    Access

    Download

    Piezo‐Phototronic Effect Enhanced Flexible Solar Cells Based on n‐ZnO/p‐SnS Core–Shell Nanowire Array

    New search for: Zhu, Laipan
    New search for: Wang, Longfei
    New search for: Xue, Fei
    New search for: Chen, Libo
    New search for: Fu, Jianqiang
    New search for: Feng, Xiaolong
    New search for: Li, Tianfeng
    New search for: Wang, Zhong Lin

    The piezo‐phototronic effect is about the enhanced separation, transport, and recombination of the photogenerated carriers using the piezoelectric polarization charges present in piezoelectric‐semiconductor materials. Here, it is presented that the piezo‐phototronic effect can be effectively applied to improve the relative conversion efficiency of a flexible solar cell based on n‐ZnO/p‐SnS core–shell nanowire array for 37.3% under a moderate vertical pressure. The performance of the solar cell can be effectively enhanced by a gentle bending of the device, showing its potential for application in curly geometries. This study not only adds further understanding about the concept of increasing solar energy conversion efficiency via piezo‐phototronic effect, but also demonstrates the great potential of piezo‐phototronic effect in the application of large‐scale, flexible, and lightweight nanowire array solar cells.

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    Download

    Access

    Download

    Page navigation

    Document information
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    Document information
    Title:

    Piezo‐Phototronic Effect Enhanced Flexible Solar Cells Based on n‐ZnO/p‐SnS Core–Shell Nanowire Array

    Contributors:

    Zhu, Laipan (author) / Wang, Longfei (author) / Xue, Fei (author) / Chen, Libo (author) / Fu, Jianqiang (author) / Feng, Xiaolong (author) / Li, Tianfeng (author) / Wang, Zhong Lin (author)

    Published in:

    Advanced Science ; 4

    Publication date:

    2017-01-01

    Size:

    7 pages

    ISSN:

    2198-3844

    DOI:

    https://doi.org/10.1002/advs.201600185

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    core–shell nanowire arrays , flexible solar cells , n‐ZnO/p‐SnS , piezo‐phototronic effect , piezopotential

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