In Situ Fabrication of PdSe₂/GaN Schottky Junction for Polarization-Sensitive Ultraviolet Photodetection with High Dichroic Ratio

Abstract: Polarization-sensitive ultraviolet (UV) photodetection is of great technological importance for both civilian and military applications. Two-dimensional (2D) group-10 transition-metal dichalcogenides (TMDs), especially palladium diselenide (PdSe 2 ), are promising candidates for polarized photodetection due to their lowsymmetric crystal structure. However, the lack of an efficient heterostructure severely restricts their applications in UV-polarized photodetection. Here, we develop a PdSe 2 /GaN Schottky junct… Show more

“…bandgap semiconductors, such as SiC, diamond, Ga 2 O 3 , GaN, ZnS, ZnO, or ZnSe, suffer from problems, such as low sensitivity, long response time, nonlinear photocurrent with incident optical power, and a complicated fabrication process. [3][4][5][6] In addition, the fabrication of a flexible or rollable UV photodetector with sufficient durability has not been reported, despite the great significance of sustainable mechanical flexibility for the sensor in wearable sensing systems.…”

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bandgap semiconductors, such as SiC, diamond, Ga 2 O 3 , GaN, ZnS, ZnO, or ZnSe, suffer from problems, such as low sensitivity, long response time, nonlinear photocurrent with incident optical power, and a complicated fabrication process. [3][4][5][6] In addition, the fabrication of a flexible or rollable UV photodetector with sufficient durability has not been reported, despite the great significance of sustainable mechanical flexibility for the sensor in wearable sensing systems.Many studies have been focused on developing efficient, flexible, and highly sensitive UV photodetectors from various nanostructured materials. As an emerging nanomaterial for effective flexible photodetectors, 2D nanomaterials have attracted considerable attention because of their unique properties, such as atomic-scale thickness, lightweight, and flexibility.

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Rollable Ultraviolet Photodetector Based on ZnAl‐Layered Double Hydroxide/Polyvinylidene Fluoride Membrane

“…bandgap semiconductors, such as SiC, diamond, Ga 2 O 3 , GaN, ZnS, ZnO, or ZnSe, suffer from problems, such as low sensitivity, long response time, nonlinear photocurrent with incident optical power, and a complicated fabrication process. [3][4][5][6] In addition, the fabrication of a flexible or rollable UV photodetector with sufficient durability has not been reported, despite the great significance of sustainable mechanical flexibility for the sensor in wearable sensing systems.…”

“…

bandgap semiconductors, such as SiC, diamond, Ga 2 O 3 , GaN, ZnS, ZnO, or ZnSe, suffer from problems, such as low sensitivity, long response time, nonlinear photocurrent with incident optical power, and a complicated fabrication process. [3][4][5][6] In addition, the fabrication of a flexible or rollable UV photodetector with sufficient durability has not been reported, despite the great significance of sustainable mechanical flexibility for the sensor in wearable sensing systems.Many studies have been focused on developing efficient, flexible, and highly sensitive UV photodetectors from various nanostructured materials. As an emerging nanomaterial for effective flexible photodetectors, 2D nanomaterials have attracted considerable attention because of their unique properties, such as atomic-scale thickness, lightweight, and flexibility.

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Rollable Ultraviolet Photodetector Based on ZnAl‐Layered Double Hydroxide/Polyvinylidene Fluoride Membrane

“…To better evaluate its performance, Fig. 2e-g show the photocurrent (I ph ), linear dynamic range (LDR), 31 responsivity (R), [32][33][34] and detectivity (D*) 35,36 under different illumination intensities. I ph is the difference between the light current (I light ) and the dark current (I dark ), which is defined as I ph = I light À I dark .…”

Transparent p-type CuI film based self-powered ultraviolet photodetectors with ultrahigh speed, responsivity and detectivity

“…[9][10][11][12][13][14][15] Photodetectors are one of the key components of multifunctional technology and many devices. [16][17][18] TMDs have strong light-matter interactions and ultra-wide band gaps from visible to infrared. [19][20][21] Therefore, TMDs are the ideal material candidates for photodetector fabrication.…”

A high-performance self-powered photodetector based on WSe₂–graphene–MoTe₂ van der Waals heterojunctions