Self‐powered broadband kesterite photodetector with ultrahigh specific detectivity for weak light applications

IF 18.7 1区材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY

SusMat Pub Date : 2023-09-25 DOI:10.1002/sus2.160

Guang‐Xing Liang, Chuan‐Hao Li, Jun Zhao, Yi Fu, Zi‐Xuan Yu, Zhuang‐Hao Zheng, Zheng‐Hua Su, Ping Fan, Xiang‐Hua Zhang, Jing‐Ting Luo, Liming Ding, Shuo Chen

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引用次数: 4

Abstract

Abstract Kesterite Cu 2 ZnSn(S,Se) 4 (CZTSSe) is a promising candidate for photodetector (PD) applications thanks to its excellent optoelectronic properties. In this work, a green solution‐ processed spin coating and selenization‐processed thermodynamic or kinetic growth of high‐quality narrow bandgap kesterite CZTSSe thin film is developed. A self‐powered CZTSSe/CdS thin‐film PD is then successfully fabricated. Under optimization of light absorber and heterojunction interface, especially tailoring the defect and carrier kinetics, it can achieve broadband response from 300 to 1300 nm, accompanied with a high responsivity of 1.37 A/W, specific detectivity ( D *) up to 4.0 × 10 14 Jones under 5 nW/cm 2 , a linear dynamic range (LDR) of 126 dB, and a maximum I light / I dark ratio of 1.3 × 10 8 within the LDR, and ultrafast response speed (rise/decay time of 16 ns/85 ns), representing the leading‐level performance to date, which is superior to those of commercial and well‐researched photodiodes. Additionally, an imaging system with a 905 nm laser is built for weak light response evaluation, and can respond to 718 pW weak light and infrared imaging at a wavelength as low as 5 nW/cm 2 . It has also been employed for photoplethysmography detection of pulsating signals at both the finger and wrist, presenting obvious arterial blood volume changes, demonstrating great application potential in broadband and weak light photodetection scenarios.

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自供电宽带kesterite光电探测器，具有超高的特异探测率，适用于弱光应用

摘要:Kesterite cu2 ZnSn(S,Se) 4 (CZTSSe)由于其优异的光电性能，是一种很有前途的光电探测器(PD)候选材料。在这项工作中，开发了一种绿色溶液处理的自旋涂层和硒化处理的高质量窄带隙kesterite CZTSSe薄膜的热力学或动力学生长。然后成功制备了自供电的CZTSSe/CdS薄膜PD。优化下的光吸收和异质结界面,特别是裁剪缺陷和载体动力学,它可以实现宽带响应从300年到1300海里,伴随着高响应率为1.37 a / W,特定的探测能力(D *) 4.0×10 5 nW以下14琼斯/厘米2,126分贝的线性动态范围(异地恋),最多我光明/我黑暗的比例1.3×10 8在异地恋,和超快的响应速度(上升/衰减时间16 ns / 85 ns),代表领先水平的性能到目前为止，这是优于那些商业和充分研究的光电二极管。此外，建立了905 nm激光器成像系统，用于弱光响应评估，该系统可以响应718 pW的弱光和波长低至5 nW/ cm2的红外成像。它也被应用于手指和手腕脉动信号的光体积脉搏波检测，显示出明显的动脉血容量变化，在宽带和弱光光检测场景中具有很大的应用潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

SusMat

自引率

4.20%

发文量

期刊介绍： SusMat aims to publish interdisciplinary and balanced research on sustainable development in various areas including materials science, engineering, chemistry, physics, and ecology. The journal focuses on sustainable materials and their impact on energy and the environment. The topics covered include environment-friendly materials, green catalysis, clean energy, and waste treatment and management. The readership includes materials scientists, engineers, chemists, physicists, energy and environment researchers, and policy makers. The journal is indexed in CAS, Current Contents, DOAJ, Science Citation Index Expanded, and Web of Science. The journal highly values innovative multidisciplinary research with wide impact.