Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Two‐dimensional heterostructure promoted infrared photodetection devices
View through CrossRef
AbstractIt is a rapidly developed subject in expanding the fundamental properties and application of two‐dimensional (2D) materials. The weak van der Waals interaction in 2D materials inspired researchers to explore 2D heterostructures (2DHs) based broadband photodetectors in the far‐infrared (IR) and middle‐IR regions with high response and high detectivity. This review focuses on the strategy and motivation of designing 2DHs based high‐performance IR photodetectors, which provides a wide view of this field and new expectation for advanced photodetectors. First, the photocarriers' generation mechanism and frequently employed device structures are presented. Then, the 2DHs are divided into semimetal/semiconductor 2DHs, semiconductor/semiconductor 2DHs, and multidimensional semi‐2DHs; the advantages, motivation, mechanism, recent progress, and outlook are discussed. Finally, the challenges for next‐generation photodetectors are described for this rapidly developing field.
Title: Two‐dimensional heterostructure promoted infrared photodetection devices
Description:
AbstractIt is a rapidly developed subject in expanding the fundamental properties and application of two‐dimensional (2D) materials.
The weak van der Waals interaction in 2D materials inspired researchers to explore 2D heterostructures (2DHs) based broadband photodetectors in the far‐infrared (IR) and middle‐IR regions with high response and high detectivity.
This review focuses on the strategy and motivation of designing 2DHs based high‐performance IR photodetectors, which provides a wide view of this field and new expectation for advanced photodetectors.
First, the photocarriers' generation mechanism and frequently employed device structures are presented.
Then, the 2DHs are divided into semimetal/semiconductor 2DHs, semiconductor/semiconductor 2DHs, and multidimensional semi‐2DHs; the advantages, motivation, mechanism, recent progress, and outlook are discussed.
Finally, the challenges for next‐generation photodetectors are described for this rapidly developing field.
Related Results
Solution-processed quantum dot infrared lasers
Solution-processed quantum dot infrared lasers
(English) Colloidal semiconductors quantum dots (CQDs) have emerged as a promising solutionprocessed gain material that can be engineered via low-cost and scalable chemical techniq...
Heterodimensional schottky contacts to modulation-doped heterojunction with application to photodetection
Heterodimensional schottky contacts to modulation-doped heterojunction with application to photodetection
The growing technological demand for high speed and compact integrated electronics and Optics is a pressing challenge. Speed and compactness necessitate low power consumption semic...
A direct Z-scheme MoSi2N4/BlueP vdW heterostructure for photocatalytic overall water splitting
A direct Z-scheme MoSi2N4/BlueP vdW heterostructure for photocatalytic overall water splitting
Abstract
Building novel van der Waals (vdW) heterostructures is a feasible method to expand material properties and applications. A MoSi2N4/blue phosphorus (BlueP) h...
Heterogeneously Integrated Micro-ring with SnS₂ for Dual-functional Optical Modulation and Photodetection
Heterogeneously Integrated Micro-ring with SnS₂ for Dual-functional Optical Modulation and Photodetection
Abstract
Dual-functional devices capable of simultaneous modulation and photodetection offer enhanced flexibility for on-chip photonic integrated systems. However, fabricat...
An Infrared Sequence Image Generating Method for Target Detection and Tracking
An Infrared Sequence Image Generating Method for Target Detection and Tracking
Training infrared target detection and tracking models based on deep learning requires a large number of infrared sequence images. The cost of acquisition real infrared target sequ...
THREE-DIMENSIONAL HOLOGRAPHIC OPTICAL ELEMENTS BASED ON NEW MICROSYSTEMS
THREE-DIMENSIONAL HOLOGRAPHIC OPTICAL ELEMENTS BASED ON NEW MICROSYSTEMS
The origination and improvement of holographic methods, as well as technical equipment for their implementation [1–3] revived interest in light diffraction in three-dimensional per...
Two-dimensional function photonic crystal
Two-dimensional function photonic crystal
Photonic crystal is a kind of periodic optical nanostructure consisting of two or more materials with different dielectric constants, which has attracted great deal of attention be...
A direct Z-scheme g-C6N6/InP van der Waals heterostructure: a promising photocatalyst for high-efficiency overall water splitting
A direct Z-scheme g-C6N6/InP van der Waals heterostructure: a promising photocatalyst for high-efficiency overall water splitting
Abstract
An intrinsic out-of-plane electronic field can inhibit the recombination of photogenerated carriers in two-dimensional (2D) polar materials. On the other ha...