High performance compound semiconductor nanowire optoelectronic devices. Semiconductor nanowires are emerging nano-materials with substantial opportunities for novel photonic and electronic device applications. This project aims at developing a new generation of high performance nanowire-based light-emitting diodes (LEDs), lasers and photodetectors, which will make great contribution to the nation in the areas of science, technology and industry.
Selective area nano-epitaxy. A new major program will be initiated to investigate the epitaxial growth of certain semiconductor nanowires on patterned substrates, without the use of a catalyst. It will result in the ability to produce nanowires of high quality and uniformity. This will lead the way for new and advanced concept nanowire-based devices for future applications.
Antimonide-based nanowires for infra-red and energy applications. This project will investigate and to understand the fundamental growth mechanisms of antimonide-based semiconductor nanowires. It will result in the ability to produce nanowires of high quality and uniformity for applications in infra-red technologies such as photodetectors and solar cells.
Plasmonic Photochemistry: A nanoscopic solution to global energy and environmental problems. Harvesting energy from light sources, including our sun, can provide a significant fraction of the world's energy need over the next century. In order to meet this critical demand, it is crucial to devise ways to transform light energy into chemical fuels. This project aims to create novel nanostructures that directly couple light energy into chemical reactions. This will be achieved by the creation of ....Plasmonic Photochemistry: A nanoscopic solution to global energy and environmental problems. Harvesting energy from light sources, including our sun, can provide a significant fraction of the world's energy need over the next century. In order to meet this critical demand, it is crucial to devise ways to transform light energy into chemical fuels. This project aims to create novel nanostructures that directly couple light energy into chemical reactions. This will be achieved by the creation of metallic nanoparticles that can transform light energy into hot electrons: entities that can efficiently drive the production of chemical fuels in a process similar to that of photosynthesis.Read moreRead less
Nanoscale control of energy and matter for future energy-efficient technologies. Unprecedented control of energy and matter in nanoscale fabrication will be achieved using non-equilibrium self-organised plasma-solid systems. The outcomes will lead to energy-efficient, environment- and human-health-friendly production of nanomaterials for future energy, health, information, food, water, environmental and security technologies.