Graphene/black phosphorus heterostructured photodetector

•Graphene/black phosphorus (BP) heterostructure photodetectors work from visible to NIR range.•Detection mechanism is based on a photogating effect.•High photoresponsivities come from the prolonged photocarrier lifetime and graphene high carrier mobility. Graphene photodetectors exhibit a low photor...

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Published in	Solid-state electronics Vol. 144; pp. 86 - 89
Main Authors	Xu, Jiao, Song, Young Jae, Park, Jin-Hong, Lee, Sungjoo
Format	Journal Article
Language	English
Published	Elsevier Ltd 01.06.2018
Subjects	Black phosphorus Graphene Photodetector Graphene Photodetector Black phosphorus
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Abstract	•Graphene/black phosphorus (BP) heterostructure photodetectors work from visible to NIR range.•Detection mechanism is based on a photogating effect.•High photoresponsivities come from the prolonged photocarrier lifetime and graphene high carrier mobility. Graphene photodetectors exhibit a low photoresponsivity due to their weak light absorbance. In this study, we fabricated a graphene/black phosphorus (BP) heterostructure, in which the multilayer BP flake with a ∼0.3 eV direct band gap functions as an enhanced light-absorption material. Further, the photoexcited electrons are trapped in the trap states of the BP, which creates a photogating effect and causes holes to flow into the graphene layer driven by the built-in potential between BP and graphene. The photocarrier lifetime is therefore prolonged by trapping, and as a result of the high carrier mobility of graphene, the holes that transfer into the graphene channel can travel through the circuit before they recombine with trapped electrons. These combined effects result in a high photoresponsivity: 55.75 A/W at λ = 655 nm, 1.82 A/W at λ = 785 nm, and 0.66 A/W at λ = 980 nm.
AbstractList	•Graphene/black phosphorus (BP) heterostructure photodetectors work from visible to NIR range.•Detection mechanism is based on a photogating effect.•High photoresponsivities come from the prolonged photocarrier lifetime and graphene high carrier mobility. Graphene photodetectors exhibit a low photoresponsivity due to their weak light absorbance. In this study, we fabricated a graphene/black phosphorus (BP) heterostructure, in which the multilayer BP flake with a ∼0.3 eV direct band gap functions as an enhanced light-absorption material. Further, the photoexcited electrons are trapped in the trap states of the BP, which creates a photogating effect and causes holes to flow into the graphene layer driven by the built-in potential between BP and graphene. The photocarrier lifetime is therefore prolonged by trapping, and as a result of the high carrier mobility of graphene, the holes that transfer into the graphene channel can travel through the circuit before they recombine with trapped electrons. These combined effects result in a high photoresponsivity: 55.75 A/W at λ = 655 nm, 1.82 A/W at λ = 785 nm, and 0.66 A/W at λ = 980 nm.
Author	Song, Young Jae Lee, Sungjoo Xu, Jiao Park, Jin-Hong
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Snippet	•Graphene/black phosphorus (BP) heterostructure photodetectors work from visible to NIR range.•Detection mechanism is based on a photogating effect.•High...
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SubjectTerms	Black phosphorus Graphene Photodetector
Title	Graphene/black phosphorus heterostructured photodetector
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