全喷墨打印、机械柔性 MoS 纳米片光电探测器。

Fully Inkjet-Printed, Mechanically Flexible MoS Nanosheet Photodetectors.

出版信息

ACS Appl Mater Interfaces. 2019 Feb 13;11(6):5675-5681. doi: 10.1021/acsami.8b19817. Epub 2019 Jan 31.

DOI:10.1021/acsami.8b19817

Abstract

Solution-processed two-dimensional materials offer a scalable route toward next-generation printed devices. In this report, we demonstrate fully inkjet-printed photodetectors using molybdenum disulfide (MoS) nanosheets as the active material and graphene as the electrodes. Percolating films of semiconducting MoS with high electrical conductivity are achieved with an ethyl cellulose-based ink formulation. Two classes of photodetectors are fabricated, including thermally annealed devices on glass with fast photoresponse of 150 μs and photonically annealed devices on flexible polyimide with high photoresponsivity exceeding 50 mA/W. The photonically annealed photodetector also reduces the curing time to milliseconds and maintains functionality over 500 bending cycles.

摘要

溶液处理二维材料为下一代印刷设备提供了可扩展的途径。在本报告中，我们展示了使用二硫化钼 (MoS) 纳米片作为活性材料和石墨烯作为电极的全喷墨打印光电探测器。采用乙基纤维素基油墨配方实现了具有高导电性的半导体 MoS 的渗透膜。制备了两类光电探测器，包括在玻璃上进行热退火的器件，其光响应速度快至 150 μs，以及在柔性聚酰亚胺上进行光子退火的器件，其光响应率超过 50 mA/W。光子退火的光电探测器还将固化时间缩短到毫秒级，并在 500 次弯曲循环中保持功能。

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全喷墨打印、机械柔性 MoS 纳米片光电探测器。

Fully Inkjet-Printed, Mechanically Flexible MoS Nanosheet Photodetectors.

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