Mechanisms and innovative technologies for machining nanoscale multilayered thin film solar panels. This project addresses an important manufacturing bottleneck in the solar energy industry by addressing significant limitations in machining multilayered solar panels. A successful outcome will provide an important breakthrough in machining technology applicable not only to solar panels but other material science applications.
Developing machining technologies for single crystal gallium oxide. Gallium oxide is a new semiconductor material that can be used to make diodes and transistors with lower loss than silicon (Si), and power electronic devices with lower cost and better performance than silicon carbide (SiC) and gallium nitride (GaN). This project aims to understand the nature of deformation and removal of this unique class of materials during machining. A successful outcome will not only develop an enabling mach ....Developing machining technologies for single crystal gallium oxide. Gallium oxide is a new semiconductor material that can be used to make diodes and transistors with lower loss than silicon (Si), and power electronic devices with lower cost and better performance than silicon carbide (SiC) and gallium nitride (GaN). This project aims to understand the nature of deformation and removal of this unique class of materials during machining. A successful outcome will not only develop an enabling machining technology for this next generation power semiconductor, but new understanding of machining and materials science will be generated.Read moreRead less