Ming C. Wu (Advisor)

In recent years, the photovoltaic market has grown significantly as module prices have continued to come down. Continued growth of the field requires higher efficiency modules at lower manufacturing costs. In particular, higher efficiencies reduce the area needed for a given power output, thus reducing the downstream balance of systems costs that scale with area such as mounting frames, installation, and soft costs. Cells and modules made from III-V materials have the highest demonstrated efficiencies to date but are not yet at the cost level of other thin film technologies, which...

The field of lab-on-a-chip offers exciting new capabilities for chemical and biological assays, including increased automation, higher throughput, heightened sensitivity of detection, and reduced sample and reagent usage. This area of study has seen remarkable progress in the last decade, with applications ranging from drug development to point-of-care diagnostics. The research presented herein focuses on the development of semiconductor-based optoelectrowetting (OEW) and optoelectronic tweezers (OET) platforms, which can respectively perform operations on droplets and cells/...

Optical interconnects are increasingly important for our communication and data center systems, and are forecasted to be an essential component of future computers. In order to meet these future demands, optical interconnects must be improved to consume less power than they do today. To do this, both more effcient transmitters and more sensitive receivers must be developed. This work addresses the latter, focusing on device level improvements to tightly couple a low capacitance photodiode with the first...