Journal ArticleDOI
When group-III nitrides go infrared: New properties and perspectives
TLDR
In this paper, the bandgap of InN was revised from 1.9 eV to a much narrower value of 0.64 eV, which is the smallest bandgap known to date.Abstract:
Wide-band-gap GaN and Ga-rich InGaN alloys, with energy gaps covering the blue and near-ultraviolet parts of the electromagnetic spectrum, are one group of the dominant materials for solid state lighting and lasing technologies and consequently, have been studied very well. Much less effort has been devoted to InN and In-rich InGaN alloys. A major breakthrough in 2002, stemming from much improved quality of InN films grown using molecular beam epitaxy, resulted in the bandgap of InN being revised from 1.9 eV to a much narrower value of 0.64 eV. This finding triggered a worldwide research thrust into the area of narrow-band-gap group-III nitrides. The low value of the InN bandgap provides a basis for a consistent description of the electronic structure of InGaN and InAlN alloys with all compositions. It extends the fundamental bandgap of the group III-nitride alloy system over a wider spectral region, ranging from the near infrared at ∼1.9 μm (0.64 eV for InN) to the ultraviolet at ∼0.36 μm (3.4 eV for GaN...read more
Citations
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Journal ArticleDOI
Optimization of Ternary InxGa1-xN Quantum Wells on GaN Microdisks for Full-Color GaN Micro-LEDs
Yu-Chung Lin,Ikai Lo,Cheng-Da Tsai,Ying-Chieh Wang,Hui-Chun Huang,Chu-An Li,Mitch M.C. Chou,Ting-Chang Chang +7 more
TL;DR: In this article , the authors established a mechanism to optimize the self-assembly growth with ball-stick model for InxGa1-xN multiple quantum well microdisks by bottom-up nanotechnology.
Novel optical study and application on iii-nitrides
TL;DR: In this article, the authors propose a novel approach to solve the problem of plagiarism in the literature, which is based on the concept of "perspectives" of authorship.
Book ChapterDOI
The Halide Perovskite Gain Media
TL;DR: In this paper , the perovskites rose to fame due to their rapid improvements in solar-cell conversion efficiencies, starting from 3.8% in 2009 to 22.1% in 2014 and exceeding 25% in 2019.
Journal ArticleDOI
Thermal transport properties of hexagonal monolayer group-III nitride nanoribbons
TL;DR: In this article , the thermal transport properties of hexagonal monolayer BN, AlN, and GaN nanoribbons are systematically investigated using non-equilibrium molecular dynamics simulations.
Journal ArticleDOI
Terahertz Current Oscillation in Wurtzite InN
TL;DR: In this article, the time-dependent drift-diffusion model was used to investigate the current self-oscillation in doped n+nn+ wurtzite InN diodes driven by a dc electric field.
References
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TL;DR: In this paper, the Hartree-Fock Approximation of many-body techniques and the Electron Gas Polarons and Electron-phonon Interaction are discussed.
Journal ArticleDOI
Room-temperature ultraviolet nanowire nanolasers
Michael H. Huang,Samuel S. Mao,Henning Feick,Haoquan Yan,Yiying Wu,Hannes Kind,Eicke R. Weber,Richard E. Russo,Peidong Yang,Peidong Yang +9 more
TL;DR: Room-temperature ultraviolet lasing in semiconductor nanowire arrays has been demonstrated and self-organized, <0001> oriented zinc oxide nanowires grown on sapphire substrates were synthesized with a simple vapor transport and condensation process.
Journal ArticleDOI
Band parameters for III–V compound semiconductors and their alloys
TL;DR: In this article, the authors present a comprehensive, up-to-date compilation of band parameters for the technologically important III-V zinc blende and wurtzite compound semiconductors.
Journal ArticleDOI
Introduction to Solid State Physics
TL;DR: Kind's new edition is to be welcomed as mentioned in this paper, with a revised format and attractive illustrations, and with the inclusion of much new material this book has become one of the best sources for undergraduate teaching, likely to give the student a wish to dig deeper into the solid state.
Journal ArticleDOI
Band structure of indium antimonide
TL;DR: The band structure of InSb is calculated using the k ·. p perturbation approach and assuming that the conduction and valence band extrema are at k = 0 as mentioned in this paper.