Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0561240
Funder
Australian Research Council
Funding Amount
$121,510.00
Summary
Combined reactor for the plasma-enhanced chemical vapour deposition (PECVD) of amorphous layers of silicon, silicon nitride and silicon oxide, and for Reactive Ion Etching. Our small, but very productive group (up to 30 publications per Discovery grant) has reached critical mass (8 people), and the acquisition of essential infrastructure is peremptory. Without the proposed plasma reactor our strong international impact (10 papers, one invited, at the 2003 world conference on photovoltaics) will ....Combined reactor for the plasma-enhanced chemical vapour deposition (PECVD) of amorphous layers of silicon, silicon nitride and silicon oxide, and for Reactive Ion Etching. Our small, but very productive group (up to 30 publications per Discovery grant) has reached critical mass (8 people), and the acquisition of essential infrastructure is peremptory. Without the proposed plasma reactor our strong international impact (10 papers, one invited, at the 2003 world conference on photovoltaics) will wane. This machine permits to deposit thin layers of silicon nitride and amorphous silicon and is a versatile tool for investigating silicon materials for photovoltaics and microelectronics. Such reactors have become an essential tool for silicon solar cell work. Most laboratories across the world have at least one, including UNSW, but access to the latter is impractical.Read moreRead less
ADVANCED PHYSICS AND CHARACTERISATION OF SILICON MATERIALS AND DEVICES. Silicon, the semiconductor material that has revolutionised modern society through Microelectronics, is also at the centre of Photovoltaics, the technology that permits harvesting the energy from the sun to improve the quality of life and sustain it beyond the limitations of fossil fuel resources. By improving our understanding of the fundamental properties of silicon and advancing the solar cell devices made from it, this p ....ADVANCED PHYSICS AND CHARACTERISATION OF SILICON MATERIALS AND DEVICES. Silicon, the semiconductor material that has revolutionised modern society through Microelectronics, is also at the centre of Photovoltaics, the technology that permits harvesting the energy from the sun to improve the quality of life and sustain it beyond the limitations of fossil fuel resources. By improving our understanding of the fundamental properties of silicon and advancing the solar cell devices made from it, this project aims to increase Australia's presence in the vast field of Microlectronics and maintain its leading position in solar energy technologies.Read moreRead less
Improving silicon grain boundaries by linking electronic material quality and device manufacturing conditions. This project develops our recent findings for improving silicon grain boundaries in electronic devices such as cheap solar cells, active matrix displays, thin-film transistors, etc. The performance of such devices and their applications have been limited mainly because no simple link between manufacturing conditions and device quality has been found. However, we recently verified a phys ....Improving silicon grain boundaries by linking electronic material quality and device manufacturing conditions. This project develops our recent findings for improving silicon grain boundaries in electronic devices such as cheap solar cells, active matrix displays, thin-film transistors, etc. The performance of such devices and their applications have been limited mainly because no simple link between manufacturing conditions and device quality has been found. However, we recently verified a physical model description of grain boundaries on a broad range of devices, and this allows us to find such a link and to address prevailing problems from a new perspective. This will improve both the understanding and the manufacturing of such devices.Read moreRead less