2023
DOI: 10.1002/adfm.202305380
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H‐BN‐Encapsulated Uncooled Infrared Photodetectors Based on Tantalum Nickel Selenide

Shi Zhang,
Li Han,
Kening Xiao
et al.

Abstract: Uncooled broadband spectrum detection, spanning from visible to mid‐wave‐infrared regions, offers immense potential for applications in environmental monitoring, optical telecommunications, and radar systems. While leveraging proven technologies, conventional mid‐wave‐infrared photodetectors are encumbered by high dark currents and the necessity for cryogenic cooling. Correspondingly, innovative low‐dimensional materials like black phosphorus manifest weak photoresponse and instability. Here, tantalum nickel s… Show more

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Cited by 17 publications
(4 citation statements)
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“…Encapsulating with a few layers of h-BN is proven to protect the device from degradation and maintain its optoelectronic properties for up to several months, as mentioned in previous research reports. 33,34 The optical image of the device and its corresponding thickness are depicted in Figure S6. For the sake of enhancing the charge carrier separation at the surface and thus enhancing the photodetection performance of the device, a few layers of graphene were inserted in between the heterostructure of Vp/ InSe to form the VP/Gr/InSe vdW heterostructure.…”
Section: ■ Results and Discussionmentioning
confidence: 99%
“…Encapsulating with a few layers of h-BN is proven to protect the device from degradation and maintain its optoelectronic properties for up to several months, as mentioned in previous research reports. 33,34 The optical image of the device and its corresponding thickness are depicted in Figure S6. For the sake of enhancing the charge carrier separation at the surface and thus enhancing the photodetection performance of the device, a few layers of graphene were inserted in between the heterostructure of Vp/ InSe to form the VP/Gr/InSe vdW heterostructure.…”
Section: ■ Results and Discussionmentioning
confidence: 99%
“…The photoresponse performance of the 1D vdW Nb 2 Pd 1– x Se 5 photodetectors is further evaluated by several vital parameters, , including responsivity ( R ), detectivity ( D *), external quantum efficiency (EQE), and rising/decay time, which have been presented in detail in Note S1 in the Supporting Information. Figure (e) presents the calculated R and D * under a 638 nm laser with different power densities at a gate voltage of 40 V. A maximum R of ∼1 A/W is achieved at a gate voltage of 40 V because the photogating-effect-dominated photocurrent generation mechanism could extend the lifetime of photoexcited carriers .…”
Section: Resultsmentioning
confidence: 99%
“…However, when the bias voltage varies from 1 to 2 mV, the slight increasing of τ res and τ rec is due to the enhancement in Joule heat effect and increasing of the transport time of carriers. Therefore, the photobolometric effect may be introduced to the photoresponse as the bias voltage increases from 2 to 3 mV [35][36][37]. This effect is based on the change in resistivity of the material caused by uniform heating under light exposure, which alters the magnitude of the current under external bias voltage and light exposure [38,39].…”
Section: Resultsmentioning
confidence: 99%