LED chips are a core component in the LED industry. There are currently many domestic and international LED chip manufacturers in China, but there currently are no categorization standards, according to a report by Chinese-language ...
Tags: LED Industry, LED Chips
Massachusetts Institute of Technology (MIT) has demonstrated gallium nitride (GaN) vertical Schottky and p-n diodes on silicon Si substrates “for the first time” [Yuhao Zhang et al, IEEE Electron Device Letters, published online ...
Tags: GaN, MOCVD, Gallium Nitride Diodes
Singapore's Nanyang Technological University has developed conventional aluminium gallium nitride (AlGaN) high-electron-mobility transistors (HEMTs) with record-breaking figures-of-merit (FOMs) for frequency and breakdown performance [Kumud ...
Tags: Electrical, Electronics
Researchers in France have developed a technique to directly grow graphene on aluminium nitride (AlN) crystalline templates on silicon substrates [A. Michon et al, Appl. Phys. Lett., vol104, p071912, 2014]. Up to now, attempts to use ...
Tags: Electrical, Electronics
Dow Corning Corp of Midland, MI, USA, which provides silicones and silicon-based technology, has appointed Tang Yong Ang ('TY') as vice president of Dow Corning's Compound Semiconductor Solutions business, a provider of silicon carbide ...
Tags: Electrical, Electronics
LAST POWER (Large Area silicon-carbide Substrates and heTeroepitaxial GaN for POWER device applications), the European Union-sponsored program aimed at developing a cost-effective and reliable technology for power electronics, has announced ...
Tags: SiC, substrates GaN
Epiwafer foundry and substrate maker IQE plc of Cardiff, Wales, UK has launched gallium nitride (GaN)-based high-electron-mobility transistor (HEMT) epitaxial wafers on 150mm-diameter semi-insulating silicon carbide (SiC) substrates ...
Researchers in the USA at BAE Systems and Purdue University have developed atomic layer deposited (ALD) aluminium oxide as passivation for nitride semiconductor high-electron-mobility transistors (HEMTs) [Dong Xu et al, Electron Device ...
Tags: Oxide Passivation, Electronics, Atomic Layer
Traditionally Gallium Nitride (GaN) LED devices are produced on either sapphire or silicon carbide (SiC) substrates, due to the good crystal lattice matching between the materials and the GaN, with typically 2” or 4” diameter ...
The UK’s Engineering and Physical Sciences Research Council (EPSRC) has awarded funding totaling more than £823,800m to two universities for the project ‘Novel High Thermal Conductivity Substrates for GaN Electronics: ...
Tags: Electrical, Electronics, GaN Electronics
LEDs are projected to grow more than six-fold to nearly $100 billion and power conversion electronics to $15 billion over the next decade as the desire for energy efficiency drives adoption, says Lux Research. While the market opportunity ...
Tags: Electrical, Electronics, Lights, LED
LEDs are projected to grow more than six-fold to nearly $100bn and power conversion electronics to $15bn over the next ten years, reckons market analyst firm Lux Research in the report “Winning the Jump Ball: Sorting Winners from ...
Researchers at University of Notre Dame and Kopin Corp have developed high-performance nitride semiconductor high-electron-mobility transistors (HEMTs) with indium gallium nitride (InGaN) channels [Ronghua Wang et al, Appl. Phys. Express, ...
Tags: semiconductor, high electron mobility transistors, InGaN
Abstract The entire LED lighting supply chain can be divided into the following segments: rare earth, MOCVD equipment, sapphire ingots and substrates, LED chips, LED packaging, and LED lighting fixtures. This Digitimes Special Report ...
Tags: LED, MOCVD, Sapphire, Rare Earth
Researchers based in the USA and France have created graphene nanoribbon structures with regions that have relatively large energy bandgaps of about 0.5eV [J. Hicks et al, Nature Physics, published online 18 November 2012]. Flat graphene ...
Tags: silicon carbide, graphene, nanoribbon structures, bandgaps, energy bands