Ga2O3 MOSFETs Using Spin-On-Glass Source/Drain Doping Technology
Ga2O3 MOSFETs Using Spin-On-Glass Source/Drain Doping Technology Ke Zeng, Joshua S. Wallace, Christopher Heimburger, Kohei Sasaki, Akito Kuramata, Takekazu Masui, Joseph A. Gardella Jr., and Uttam Singisetti, Member, IEEE Read full...
NREL Spin-on Dopants Enabling Low-Cost Interdigitated Back Passivated Contact Solar Cells
NREL Spin-on Dopants Enabling Low-Cost Interdigitated Back Passivated Contact Solar Cells Benjamin G. Lee, Derek M. Fogel, San Theingi, William Nemeth, David L. Young, Pauls Stradins National Renewable Energy Lab MOTIVATION • ...
The Arizona Jobs Report
Desert Silicon, Inc Makes the Arizona Jobs Report! (pg 61) Snapshot: Job Impacts of Arizona Companies Arizona’s advanced materials industry benefits from a diverse group of businesses, ranging from small supply chain businesses to large...
NREL (National Renewable Energy Laboratory) Spin on dopant process for solar cell
Process author/customer Benjamin Lee at NREL 1. This is a silicon single-junction solar cell. 2. The purpose of the dopants is for doping the p- and n-regions of the solar cell. We are using n-type Si wafers, so the p-doping is for the...
SOG Customer Application Questions & Answers
We would like to use your SOD as a source for dopants, we are currently interested in sources for B, P and As, and have some questions regarding that process: 1. Being a research facility, using the same tools for various processes we are...
Benefits of Wafer Bonding
Almost any flat substrates can be bonded to each other, including silicon, GaAs, InP, glass, quartz, ceramic, aluminum and other metals. Wafers with thin films, such as oxides, metals, nitrides and others, can also be bonded.