Design and synthesis of transparent conducting metal oxides. With advances in solar cell and flexible display technologies the demand and performance requirements for transparent conductors used as electrodes in these devices will increase dramatically. This research program is focused on developing new materials to meet the demand and the challenges of new, more advanced technologies. The project has the potential to generate valuable intellectual property in the form of new generation transpar ....Design and synthesis of transparent conducting metal oxides. With advances in solar cell and flexible display technologies the demand and performance requirements for transparent conductors used as electrodes in these devices will increase dramatically. This research program is focused on developing new materials to meet the demand and the challenges of new, more advanced technologies. The project has the potential to generate valuable intellectual property in the form of new generation transparent conducting oxide materials for a rapidly growing set of applications. The new devices will directly improve our standard of living and additional economic benefits will come from commercialisation of the technology both here and overseas.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453732
Funder
Australian Research Council
Funding Amount
$726,164.00
Summary
Interactive network for plasma and surface analysis. Plasma-based materials synthesis and surface modification methods have great value because they allow a wide range of ion energies and processing conditions to be achieved. Accurate in-situ measurement of the plasma conditions is crucial to the development of reliable new processes. This proposal will establish unique capabilities for carrying out diagnostic studies of plasma surface treatment technologies. The proposal will link Australia's m ....Interactive network for plasma and surface analysis. Plasma-based materials synthesis and surface modification methods have great value because they allow a wide range of ion energies and processing conditions to be achieved. Accurate in-situ measurement of the plasma conditions is crucial to the development of reliable new processes. This proposal will establish unique capabilities for carrying out diagnostic studies of plasma surface treatment technologies. The proposal will link Australia's most advanced plasma processing and diagnostic equipment located at the University of Sydney and the ANU to advanced materials and surface analysis facilities at La Trobe and RMIT Universities in Melbourne, using interactive e-science links and vacuum sample-transfer facilities.Read moreRead less
Fundamental studies of the mechanism of atmospheric pressure plasma deposition of thin films. This project will extend fundamental understanding of the mechanisms occurring in a revolutionary plasma deposition process, atmospheric pressure plasma deposition, building upon a platform of technology developed over the last 12 months. The deposition process uses liquid containing the deposition source materials to confine the plasma. The enormous commercial potential of the process for wear-resist ....Fundamental studies of the mechanism of atmospheric pressure plasma deposition of thin films. This project will extend fundamental understanding of the mechanisms occurring in a revolutionary plasma deposition process, atmospheric pressure plasma deposition, building upon a platform of technology developed over the last 12 months. The deposition process uses liquid containing the deposition source materials to confine the plasma. The enormous commercial potential of the process for wear-resistant coatings, biomaterials and electronics is currently limited by insufficient understanding of the basic mechanisms of deposition, and critical plasma parameters which control the process. This basic science project focusses on fundamental chemical and plasma processes, and will develop initial models, enabling generalisation of the process.Read moreRead less