Directed assembly and photoelectric properties of core-shell nanowire networks of PbSe-TiO2 heterostructures for high efficiency low-cost solar cells. The proposed program is aimed at studying numerous fundamental properties and phenomena of photoelectrochemical cells that have an important impact on environmentally friendly solutions to energy problems. Specifically, solar cells have a significant role in energy markets and in lessening CO2 emissions and other environmental impacts. Solar cell ....Directed assembly and photoelectric properties of core-shell nanowire networks of PbSe-TiO2 heterostructures for high efficiency low-cost solar cells. The proposed program is aimed at studying numerous fundamental properties and phenomena of photoelectrochemical cells that have an important impact on environmentally friendly solutions to energy problems. Specifically, solar cells have a significant role in energy markets and in lessening CO2 emissions and other environmental impacts. Solar cell technology, coupled with renewable energy sources, has the potential to provide a long-term solution to the energy crisis and the global warming threat. In addition, the strong team to be assembled will reach a leading position in this area of cutting edge technology. The outcomes will benefit Australian industries.Read moreRead less
Fundamentals of an Innovative Technology for Solar Silicon Production. Australia is a world leader in research in photovoltaic technology for solar energy. However, Australia does not produce solar grade silicon. The proposed project will develop a novel frontier technology which will cut the solar silicon production cost by 50%. This will enhance Australia's capacity to power a world-class photovoltaic industry of the future and build on Australia's strengths in research and innovation. Applica ....Fundamentals of an Innovative Technology for Solar Silicon Production. Australia is a world leader in research in photovoltaic technology for solar energy. However, Australia does not produce solar grade silicon. The proposed project will develop a novel frontier technology which will cut the solar silicon production cost by 50%. This will enhance Australia's capacity to power a world-class photovoltaic industry of the future and build on Australia's strengths in research and innovation. Application of the technology will contribute to achieving national target of 6.74 GW photovoltaic solar power capacity by 2020; this will reduce 9.32 million tonnes/year of CO2 emission (the Australian photovoltaic industry roadmap) and contribute to an environmentally sustainable Australia.Read moreRead less