Enhancement of photodetection characteristics of MoS2 field effect transistors using surface treatment with copper phthalocyanine

Enhancement of photodetection characteristics of MoS2 field effect transistors using surface treatment with copper phthalocyanine

Recently, two-dimensional materials such as molybdenum disulfide (MoS2) have been extensively studied as channel materials for field effect transistors (FETs) because MoS2 has outstanding electrical properties such as a low subthreshold swing value, a high on/off ratio, and good carrier mobility. In...

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Veröffentlicht in:Nanoscale 2015-11, Vol.7 (44), p.18780-18788
Hauptverfasser: Pak, Jinsu, Jang, Jingon, Cho, Kyungjune, Kim, Tae-Young, Kim, Jae-Keun, Song, Younggul, Hong, Woong-Ki, Min, Misook, Lee, Hyoyoung, Lee, Takhee
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container_end_page 18788
container_issue 44
container_start_page 18780
container_title Nanoscale
container_volume 7
creator Pak, Jinsu
Jang, Jingon
Cho, Kyungjune
Kim, Tae-Young
Kim, Jae-Keun
Song, Younggul
Hong, Woong-Ki
Min, Misook
Lee, Hyoyoung
Lee, Takhee
description Recently, two-dimensional materials such as molybdenum disulfide (MoS2) have been extensively studied as channel materials for field effect transistors (FETs) because MoS2 has outstanding electrical properties such as a low subthreshold swing value, a high on/off ratio, and good carrier mobility. In this study, we characterized the electrical and photo-responsive properties of MoS2 FET when stacking a p-type organic copper phthalocyanine (CuPc) layer on the MoS2 surface. We observed that the threshold voltage of MoS2 FET could be controlled by stacking the CuPc layers due to a charge transfer phenomenon at the interface. Particularly, we demonstrated that CuPc/MoS2 hybrid devices exhibited high performance as a photodetector compared with the pristine MoS2 FETs, caused by more electron-hole pairs separation at the p-n interface. Furthermore, we found the optimized CuPc thickness (∼2 nm) on the MoS2 surface for the best performance as a photodetector with a photoresponsivity of ∼1.98 A W(-1), a detectivity of ∼6.11 × 10(10) Jones, and an external quantum efficiency of ∼12.57%. Our study suggests that the MoS2 vertical hybrid structure with organic material can be promising as efficient photodetecting devices and optoelectronic circuits.
doi_str_mv 10.1039/c5nr04836b
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In this study, we characterized the electrical and photo-responsive properties of MoS2 FET when stacking a p-type organic copper phthalocyanine (CuPc) layer on the MoS2 surface. We observed that the threshold voltage of MoS2 FET could be controlled by stacking the CuPc layers due to a charge transfer phenomenon at the interface. Particularly, we demonstrated that CuPc/MoS2 hybrid devices exhibited high performance as a photodetector compared with the pristine MoS2 FETs, caused by more electron-hole pairs separation at the p-n interface. Furthermore, we found the optimized CuPc thickness (∼2 nm) on the MoS2 surface for the best performance as a photodetector with a photoresponsivity of ∼1.98 A W(-1), a detectivity of ∼6.11 × 10(10) Jones, and an external quantum efficiency of ∼12.57%. 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title Enhancement of photodetection characteristics of MoS2 field effect transistors using surface treatment with copper phthalocyanine
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