通过加入高岭石实现高开关比有机光电探测器

IF 2.7 Q2 PHYSICS, CONDENSED MATTER
Jinghui Li , Zhenbo Chen , Xuan Yu , Xiaoming Yu , Qian Qiao , Hai Zhang , Zhenhua Li , Yingtang Zhou
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引用次数: 0

摘要

有机光电探测器(OPD)因其对微弱光信号的灵敏度以及在成像和光通信领域的应用前景而受到广泛关注。由于有机活性层的载流子迁移率较低,因此对光的吸收有限。ZnO 纳米棒(NRs)具有优异的光电和光捕获特性,已被用于 OPD。本文首次基于高岭石-氧化锌(KAZN)种子层水热合成了氧化锌纳米棒。高岭石是一种源自层状硅酸盐矿物的天然物质,具有独特的晶体化学性质。与 ZnO NRs 相比,KAZN NRs 的晶粒尺寸更小,结晶度更高,光散射能力明显增强(从 300 纳米到 800 纳米,平均雾度增加了 36%)。同时,KAZN NRs 的带隙更窄,因此光电发射性能更佳。由此产生的 KAZN NRs OPD 的响应率(Rs)提高了 44%,实现了令人印象深刻的高通断比(18,744),在 440 纳米波长处显著提高了 1800%。在整个测试波段,噪声等效功率(NEP)降低了一个数量级。这一重大改进可归功于高岭石的引入,它改变了 NRs 晶体结构,在增强光电流的同时有效降低了 OPD 的暗电流。我们的研究为改善基于氧化锌的光电器件的光散射特性和光电性能提供了一种简单而经济有效的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
High-on/off ratio organic photodetectors via incorporating Kaolinite

Organic photodetectors (OPDs) have received wide attention for the weak-light signals sensitivity and promising application in imaging, and optical communication. While limited light absorption due to low carrier mobility of organic active layer. ZnO nanorods (NRs) possesses excellent photoelectric and light-trapping properties have been used in OPDs. Herein, for the first time, ZnO NRs were hydrothermal synthesized based on Kaolinite-ZnO (KAZN) seed layer. Kaolinite is a natural substance that originates from layered silicate minerals, possess unique crystal chemical properties. The KAZN NRs exhibits a smaller grain size, enhanced crystallinity and significantly enhanced light-scattering (average Haze increased 36 % from 300 to 800 nm) compared with ZnO NRs. Meanwhile, KAZN NRs have a narrower band gap, leading to superior photoelectric emission. The resulting KAZN NRs OPDs showed an enhancement in responsivity (Rs) by 44 % and achieved an impressively high On/Off ratio (18,744), representing a remarkable increase of 1800 %@ 440 nm. The noise equivalent power (NEP) has decreased by an order of magnitude at full test band. The significant improvement can be attributed to the introduction of Kaolinite, which alters the NRs crystal structure and effectively reduces OPDs dark current while enhancing photocurrent. Our research provides a simple and cost-effective approach for improving light-scattering characteristics and optoelectronic performance for ZnO based-photovoltaic devices.

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