Semiconductor Materials & Processes
Virtually all modern electronics contain integrated circuits, and as semiconductor technology approaches unforeseen heights, researchers are charged with developing faster, more efficient chips. ASU researchers are helping to overcome heat, speed and energy waste roadblocks, working towards the production of more effective semiconductors and electronics.
PortfolioMaterialsCompounds and Methods for Depositing Pure Thin Films of Gallium Nitride Semiconductor
Long Wavelength GaAs Based Pseudomorphic InGaPAsSb Type I active Materials
Super Hard Dielectric Materials and Methods of Preparation
Low Cost Hybrid Substrates for Solid State Lighting and Electronics Applications
SiGeSn Buffer Layers for Integration of III-V & II-VI Compound Semiconductors with Silicon
Materials and Optical Devices Based on Group IV Quantum Wells Grown on Si-Ge-Sn Buffered Silicon
Processes
Detection of Electromigration in Integrated Circuits
Method for Preparing Ge1-x-ySnxEy(E=P, As, Sb) Semiconductors and Related Si-Ge-Sn-E and Si-Ge-E Analogs
Molecular Modifications of Metal/Dielectric Interfaces
Custom-Designed Abrasive Particles to Minimize Cleaning Following Chemical Mechanical Planarization
Selective Deposition of Ruthenium Films by Digital Chemical Vapor Deposition
Two Step Process for Direct Synthesis of Gallium Nitride Powders
Long Range Ordered Semiconductor Interface Phase and Oxides
Ordered and Epitaxial Nanophases of Beta-Cristobalite Silicon Dioxide Including Thin and Ultra-thin Films and Interphases on Silicon (100) Substrate and Applications Thereof
Low Temperature Epitaxial Growth of Quaternary Wide Bandgap Semiconductors
Methods and Compositions for Preparing Tensile Strained Ge on Ge1-ySny Buffered Semiconductor Substrates
Methods and Compositions for Preparing Ge/Si Semiconductor Substrates
Selective Deposition of Ge-rich Si-Ge Layers from Single Source Si-Ge Hydrides
Method of Transferring An Ultra-Thin Layer of Crystalline Material with High Crystalline Quality
Cyclic Plasma Etch Process for Smoothing or Thinning of Oxidizable Materials
Organic Materials
OLED Materials
Electrically Conducting Porphyrin and Porphyrin-Fullerene Electropolymers
Flexible Electronics
Flexible Electronics Using Ion Implantation to Adhere Polymer Substrate to Single Crystal Silicon Substrate
