Piezo-phototronic effect enhanced visible/UV photodetector of a carbon-fiber/ZnO-CdS double-shell microwire

Fang Zhang; Simiao Niu; Wenxi Guo; Guang Zhu; Ying Liu; Xiaoling Zhang; Zhong Lin Wang

doi:10.1021/nn401232k

Piezo-phototronic effect enhanced visible/UV photodetector of a carbon-fiber/ZnO-CdS double-shell microwire

Fang Zhang, Simiao Niu, Wenxi Guo, Guang Zhu, Ying Liu, Xiaoling Zhang, Zhong Lin Wang^*

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

204 引用（Scopus）

摘要

A branched ZnO-CdS double-shell NW array on the surface of a carbon fiber (CF/ZnO-CdS) was successfully synthesized via a facile two-step hydrothermal method. Based on a single CF/ZnO-CdS wire on a polymer substrate, a flexible photodetector was fabricated, which exhibited ultrahigh photon responsivity under illuminations of blue light (1.11 × 10⁵ A/W, 8.99 × 10^-8 W/cm², 480 nm), green light (3.83 × 10 ⁴ A/W, 4.48 × 10^-8 W/cm², 548 nm), and UV light (1.94 × 10⁵ A/W, 1.59 × 10^-8 W/cm ², 372 nm), respectively. The responsivity of this broadband photon sensor was enhanced further by as much as 60% when the device was subjected to a -0.38% compressive strain. This is because the strain induced a piezopotential in ZnO, which tunes the barrier height at the ZnO-CdS heterojunction interface, leading to an optimized optoelectronic performance. This work demonstrates a promising application of piezo-phototronic effect in nanoheterojunction array based photon detectors.

源语言	英语
页（从-至）	4537-4544
页数	8
期刊	ACS Nano
卷	7
期	5
DOI	https://doi.org/10.1021/nn401232k
出版状态	已出版 - 28 5月 2013
已对外发布	是

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@article{f037408431874449b985a7bdfd068672,

title = "Piezo-phototronic effect enhanced visible/UV photodetector of a carbon-fiber/ZnO-CdS double-shell microwire",

abstract = "A branched ZnO-CdS double-shell NW array on the surface of a carbon fiber (CF/ZnO-CdS) was successfully synthesized via a facile two-step hydrothermal method. Based on a single CF/ZnO-CdS wire on a polymer substrate, a flexible photodetector was fabricated, which exhibited ultrahigh photon responsivity under illuminations of blue light (1.11 × 105 A/W, 8.99 × 10-8 W/cm2, 480 nm), green light (3.83 × 10 4 A/W, 4.48 × 10-8 W/cm2, 548 nm), and UV light (1.94 × 105 A/W, 1.59 × 10-8 W/cm 2, 372 nm), respectively. The responsivity of this broadband photon sensor was enhanced further by as much as 60% when the device was subjected to a -0.38% compressive strain. This is because the strain induced a piezopotential in ZnO, which tunes the barrier height at the ZnO-CdS heterojunction interface, leading to an optimized optoelectronic performance. This work demonstrates a promising application of piezo-phototronic effect in nanoheterojunction array based photon detectors.",

keywords = "branched ZnO-CdS double-shell nanowire, carbon fiber, photodetector, piezo-phototronic effect, piezopotential",

author = "Fang Zhang and Simiao Niu and Wenxi Guo and Guang Zhu and Ying Liu and Xiaoling Zhang and Wang, {Zhong Lin}",

year = "2013",

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T1 - Piezo-phototronic effect enhanced visible/UV photodetector of a carbon-fiber/ZnO-CdS double-shell microwire

AU - Zhang, Fang

AU - Niu, Simiao

AU - Guo, Wenxi

AU - Zhu, Guang

AU - Liu, Ying

AU - Zhang, Xiaoling

AU - Wang, Zhong Lin

PY - 2013/5/28

Y1 - 2013/5/28

N2 - A branched ZnO-CdS double-shell NW array on the surface of a carbon fiber (CF/ZnO-CdS) was successfully synthesized via a facile two-step hydrothermal method. Based on a single CF/ZnO-CdS wire on a polymer substrate, a flexible photodetector was fabricated, which exhibited ultrahigh photon responsivity under illuminations of blue light (1.11 × 105 A/W, 8.99 × 10-8 W/cm2, 480 nm), green light (3.83 × 10 4 A/W, 4.48 × 10-8 W/cm2, 548 nm), and UV light (1.94 × 105 A/W, 1.59 × 10-8 W/cm 2, 372 nm), respectively. The responsivity of this broadband photon sensor was enhanced further by as much as 60% when the device was subjected to a -0.38% compressive strain. This is because the strain induced a piezopotential in ZnO, which tunes the barrier height at the ZnO-CdS heterojunction interface, leading to an optimized optoelectronic performance. This work demonstrates a promising application of piezo-phototronic effect in nanoheterojunction array based photon detectors.

AB - A branched ZnO-CdS double-shell NW array on the surface of a carbon fiber (CF/ZnO-CdS) was successfully synthesized via a facile two-step hydrothermal method. Based on a single CF/ZnO-CdS wire on a polymer substrate, a flexible photodetector was fabricated, which exhibited ultrahigh photon responsivity under illuminations of blue light (1.11 × 105 A/W, 8.99 × 10-8 W/cm2, 480 nm), green light (3.83 × 10 4 A/W, 4.48 × 10-8 W/cm2, 548 nm), and UV light (1.94 × 105 A/W, 1.59 × 10-8 W/cm 2, 372 nm), respectively. The responsivity of this broadband photon sensor was enhanced further by as much as 60% when the device was subjected to a -0.38% compressive strain. This is because the strain induced a piezopotential in ZnO, which tunes the barrier height at the ZnO-CdS heterojunction interface, leading to an optimized optoelectronic performance. This work demonstrates a promising application of piezo-phototronic effect in nanoheterojunction array based photon detectors.

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Piezo-phototronic effect enhanced visible/UV photodetector of a carbon-fiber/ZnO-CdS double-shell microwire

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