Electronics

Latest Innovations

III-V Metal Assisted Chemical Etching to Produce High Aspect Ratio III-V Semiconductor Nanostructures 

This technology is a new method for creating high aspect ratio III-V semiconductor nanostructures. Unlike currently used commercial technologies, this method does not...

Defect Resistant Red LEDs

Standard red LEDs suffer from rapid degradation and low efficiency, which becomes increasingly poor at smaller dimensions. Dr. Lee’s novel LED design integrates InP...

Eliminating Oxygen Vacancies in Thin-Film Metal Oxides through a Liquid Environment

Dr. Seebauer from the University of Illinois has developed a method to eliminate oxygen vacancy defects in thin-film metal oxides. The novel method of a liquid environment...

A Method for the Heterogeneous Integration of III-Nitride-based Materials for the Development of Optoelectronic Devices

 

Professor Dallesassee and coworkers from the University of Illinois has developed a method for the heterogeneous integration of III-Nitride materials on various...

A Piezoelectric Micromachined Ultrasonic Transducer Using Thin-Film Lithium Niobate

Professor Songbin Gong and researchers from the Department of Electrical and Computer Engineering have developed a design strategy and method for fabricating efficient...

Miniature Mercury Lamp

Researchers from the University of Illinois, along with their collaborators at Eden Park Illumination, have developed a new miniaturized lamp for uses in atomic clocks and...

Property-driven Automatic Generation of Reduced-ISA Hardware 

Dr. Rakesh Kumar and his team have developed a new system and tool to analyze logic circuits and find opportunity to automatically optimize them. This technology...

Ultra-flexible 2D Heterostructures for MEMS and Optoelectronic Applications

Researchers at the University of Illinois have developed ultra-flexible heterostructures made from 2D layers of van der Waals bonded materials. The heterostructures retain...

Stretchable and Flexible Optoelectronics from Crumpled Two-Dimensional Material Heterostructures

Researchers from the University of Illinois have developed a platform for stretchable + flexible optoelectronics that offer consistent performance in stretched vs. non-...

3D Multi-stack Nanowire and Nanosheet High Electron Mobility Transistors via Ultra-Wide Bandgap (UWBG) Materials

Researchers at the University of Illinois have developed a three-dimensional high electron mobility transistor (HEMT) architecture that utilizes ultra-wide bandgap (UWBG)...

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