van der Waals epitaxy for advanced and flexible optoelectronics. This project aims to investigate the growth of compound semiconductors directly on two-dimensional material templates, via the so-called van der Waals epitaxy. Two-dimensional materials combined with compound semiconductors as optoelectronic materials can have many uses. This project expects to design flexible solar cells, which could be integrated with fabrics or building products, and lasers that need small drive currents. It wil ....van der Waals epitaxy for advanced and flexible optoelectronics. This project aims to investigate the growth of compound semiconductors directly on two-dimensional material templates, via the so-called van der Waals epitaxy. Two-dimensional materials combined with compound semiconductors as optoelectronic materials can have many uses. This project expects to design flexible solar cells, which could be integrated with fabrics or building products, and lasers that need small drive currents. It will use the Anderson localisation effect, a photon management concept, to control the interaction between photons and material and improve device efficiencies.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100127
Funder
Australian Research Council
Funding Amount
$250,000.00
Summary
Hall effect system for detailed electrical characterisation in semiconductors. Semiconductor characterisation is crucial for research and development in optimum growth and fabrication procedures. This Hall effect measurement system is an essential carrier characterisation technique for semiconductors with potential applications in microelectronics, optoelectronics and photovoltaics.