4.6 Article

Simultaneous visible and ultraviolet photoresponse improvement of MoS2/ZnO heterostructure photodetector via direct resonant coupling of Au nanoparticles localized surface plasmon resonance

期刊

OPTICAL MATERIALS
卷 124, 期 -, 页码 -

出版社

ELSEVIER
DOI: 10.1016/j.optmat.2022.111997

关键词

MoS (2); ZnO; Au nanoparticles; Localized surface plasmon resonance; Photodetectors

资金

  1. Liaoning Province Natural Science Fund Proram [2019-MS-333]
  2. National Natural Science Foundation of China [51702326, 51872296]
  3. Youth Innovation Promotion Association, Chinese Academy of Sciences [2019197]
  4. Shenyang National Laboratory for Materials Science [L2019F36]
  5. Shenyang Science and Technology Program [18-013-0-52]

向作者/读者索取更多资源

A simple strategy of modifying gold nanoparticles (Au NPs) is proposed to improve the performance of a p-MoS2/n-ZnO heterostructure photodetector in both visible and ultraviolet light regions. The modification of Au NPs leads to a significant increase in photocurrent and photoresponse speed.
Localized surface plasmon resonance (LSPR) as a unique property of metal nanoparticles (NPs) has been widely applied to enhance the performance of optoelectronic devices. However, limited by the specific resonance frequency of plasmonic NPs, the LSPR of NPs can only improve the photoresponse performance of photodetectors at specific wavelength. In this work, a simple strategy is proposed to simultaneously improve the performance of the p-MoS2/n-ZnO heterostructure photodetector in visible and ultraviolet (UV) light regions by modifying Au NPs. The Ilight/Idark ratio of the photodetector is considerably increased after the functionalization with plasmonic Au NPs under visible and UV light illumination due to the direct resonant coupling of LSPR. In particular, the photocurrent of the photodetector increases 14.8 times after Au NPs modification under 532 nm illumination, giving rise to an obvious increase in responsivity, external quantum efficiency and specific detectivity. Moreover, the modification of Au NPs facilitates the rapid separation of electrons and holes due to the generation of surface depletion regions located at Au/MoS2 and Au/ZnO interfaces. Consequently, the photoresponse speed is also drastically improved after Au NPs decoration in both visible and ultraviolet light regions. The strategy of direct resonant coupling of Au NPs LSPR with two photosensitive materials proposed in this work will provide a new avenue for optimizing the performance of optoelectronic devices.

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