Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
2D Ultrawide Bandgap Semiconductors: Odyssey and Challenges
View through CrossRef
Abstract2D ultrawide bandgap (UWBG) semiconductors have aroused increasing interest in the field of high‐power transparent electronic devices, deep‐ultraviolet photodetectors, flexible electronic skins, and energy‐efficient displays, owing to their intriguing physical properties. Compared with dominant narrow bandgap semiconductor material families, 2D UWBG semiconductors are less investigated but stand out because of their propensity for high optical transparency, tunable electrical conductivity, high mobility, and ultrahigh gate dielectrics. At the current stage of research, the most intensively investigated 2D UWBG semiconductors are metal oxides, metal chalcogenides, metal halides, and metal nitrides. This paper provides an up‐to‐date review of recent research progress on new 2D UWBG semiconductor materials and novel physical properties. The widespread applications, i.e., transistors, photodetector, touch screen, and inverter are summarized, which employ 2D UWBG semiconductors as either a passive or active layer. Finally, the existing challenges and opportunities of the enticing class of 2D UWBG semiconductors are highlighted.
Title: 2D Ultrawide Bandgap Semiconductors: Odyssey and Challenges
Description:
Abstract2D ultrawide bandgap (UWBG) semiconductors have aroused increasing interest in the field of high‐power transparent electronic devices, deep‐ultraviolet photodetectors, flexible electronic skins, and energy‐efficient displays, owing to their intriguing physical properties.
Compared with dominant narrow bandgap semiconductor material families, 2D UWBG semiconductors are less investigated but stand out because of their propensity for high optical transparency, tunable electrical conductivity, high mobility, and ultrahigh gate dielectrics.
At the current stage of research, the most intensively investigated 2D UWBG semiconductors are metal oxides, metal chalcogenides, metal halides, and metal nitrides.
This paper provides an up‐to‐date review of recent research progress on new 2D UWBG semiconductor materials and novel physical properties.
The widespread applications, i.
e.
, transistors, photodetector, touch screen, and inverter are summarized, which employ 2D UWBG semiconductors as either a passive or active layer.
Finally, the existing challenges and opportunities of the enticing class of 2D UWBG semiconductors are highlighted.
Related Results
Low Bandgap Organic Semiconductors for Photovoltaic Applications
Low Bandgap Organic Semiconductors for Photovoltaic Applications
Photovoltaic is one of the best low-cost alternative energy sources. In this paper, organic semiconductors were explored as light harvesters due to their extraordinary properties, ...
Superinjection of Holes in Homojunction Diodes Based on Wide-Bandgap Semiconductors
Superinjection of Holes in Homojunction Diodes Based on Wide-Bandgap Semiconductors
Electrically driven light sources are essential in a wide range of applications, from indication and display technologies to high-speed data communication and quantum information p...
Rewriting the Odyssey in the Twenty-First Century: Mary Zimmerman's Odyssey and Margaret Atwood's Penelopiad
Rewriting the Odyssey in the Twenty-First Century: Mary Zimmerman's Odyssey and Margaret Atwood's Penelopiad
This essay examines two contemporary rewritings of the Odyssey, Mary Zimmerman's Odyssey and Margaret Atwood's Penelopiad: both respond to the Odyssey's own representation of the c...
Study on Transmission Characteristics and Bandgap Types of Plasma Photonic Crystal
Study on Transmission Characteristics and Bandgap Types of Plasma Photonic Crystal
A plasma photonic crystal (PPC) was formed using an array of discharge plasma tubes. The transmission spectra and bandstructure of PPCs with different lattice types under different...
Bandgap Narrowing of BaTiO3-Based Ferroelectric Oxides through Cobalt Doping for Photovoltaic Applications
Bandgap Narrowing of BaTiO3-Based Ferroelectric Oxides through Cobalt Doping for Photovoltaic Applications
Following the finding of power conversion efficiency above the Shockley–Queisser limit in BaTiO3 (BTO) crystals, ferroelectric oxides have attracted scientific interest in ferroele...
Electric field- and strain-induced bandgap modulation in bilayer C2N
Electric field- and strain-induced bandgap modulation in bilayer C2N
Recently, the C2N monolayer with an optical bandgap of 1.96 eV has emerged as a novel two-dimensional material for modern optoelectronic devices. Herein, we report its bandgap modu...
Lu2O3: A promising ultrawide bandgap semiconductor for deep UV photodetector
Lu2O3: A promising ultrawide bandgap semiconductor for deep UV photodetector
Lutetium oxide (Lu2O3), an ultrawide semiconductor with an intrinsic bandgap of 5.5–5.9 eV, has been proposed as a potential material for a high- performance deep-ultraviolet (DUV)...
Tunable bandgaps in novel two-dimensional piezoelectric phononic crystal slab
Tunable bandgaps in novel two-dimensional piezoelectric phononic crystal slab
One of the outstanding challenges in phononic crystal development is the ability to achieve bandgap tunability in a low frequency range. The introduction of piezoelectric materials...