Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100090
Funder
Australian Research Council
Funding Amount
$1,136,244.00
Summary
Xe-plasma dual beam for advanced future materials. This project aims to establish a state of the art Xe-Plasma dual-beam facility providing characterisation and fabrication capabilities to Australia’s research community. The project will use two beams - one Xe, the other electrons - to mill the surface of bulk materials which are subsequently analysed by electron or ion beam techniques to determine atomic-scale microstructure(s) and compositions. Anticipated outcomes are advanced materials engin ....Xe-plasma dual beam for advanced future materials. This project aims to establish a state of the art Xe-Plasma dual-beam facility providing characterisation and fabrication capabilities to Australia’s research community. The project will use two beams - one Xe, the other electrons - to mill the surface of bulk materials which are subsequently analysed by electron or ion beam techniques to determine atomic-scale microstructure(s) and compositions. Anticipated outcomes are advanced materials engineering and new knowledge about ancient and future materials. This is expected to provide significant advances across a variety of fields including material science, engineering and geology and enhance trans-disciplinary collaborations.Read moreRead less
Liquids to semiconductors: the formation of solution-processed electronics. This project aims to understand and control the formation of solution-processed organic semiconductors. This project will create unique experimental methodologies to study, in situ, the evolution of the structure and the emergence of electrical transport all the way from the initial solution to the final film. These findings will be used to formulate design rules and principles that will accelerate the development of sol ....Liquids to semiconductors: the formation of solution-processed electronics. This project aims to understand and control the formation of solution-processed organic semiconductors. This project will create unique experimental methodologies to study, in situ, the evolution of the structure and the emergence of electrical transport all the way from the initial solution to the final film. These findings will be used to formulate design rules and principles that will accelerate the development of solution-processed semiconductors beyond current trial-and-error approaches. This will provide significant benefits, such as unlocking the potential of soft and flexible semiconductors for new technologies based on sustainable manufacturing.Read moreRead less
Advanced computational techniques for micro/nano multiscale systems of NEMS/BioMEMS. The outcome of this project will have the following benefits to Australia.
1) It will improve the research level in the area of multiscale simulation of NEMS/BioMEMS;
2) The project will be beneficial to possibly establish new industries in the areas of nanotechnology as well as to make good use of today's microelectronics, mircofabrication and computer technology that have already established in Australia;
....Advanced computational techniques for micro/nano multiscale systems of NEMS/BioMEMS. The outcome of this project will have the following benefits to Australia.
1) It will improve the research level in the area of multiscale simulation of NEMS/BioMEMS;
2) The project will be beneficial to possibly establish new industries in the areas of nanotechnology as well as to make good use of today's microelectronics, mircofabrication and computer technology that have already established in Australia;
3) The manpower trained by this project in the areas of multi-scale simulation of MEMS/NEMS/BioMEMS will provide a crucial support for the future industry of Australia.
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Development of a photoelectrochemical system based on Titanium dioxide nanotubes/boron doped diamond heterojunction for online water quality monitoring. The reuse of purified recycled wastewater (PRW) creates an additional water supply source and improves the sustainability of the overall water resources. This calls for online water quality monitoring systems to prevent potential water quality risk from organic contaminants in PRW and enable industries and government bodies to monitor and manage ....Development of a photoelectrochemical system based on Titanium dioxide nanotubes/boron doped diamond heterojunction for online water quality monitoring. The reuse of purified recycled wastewater (PRW) creates an additional water supply source and improves the sustainability of the overall water resources. This calls for online water quality monitoring systems to prevent potential water quality risk from organic contaminants in PRW and enable industries and government bodies to monitor and manage our water resources effectively. The success of the project would lead to a robust and reliable environmental monitoring system capable of online, real-time monitoring of organic pollutants and toxins, which will transform the existing water quality monitoring technology and directly benefit water resource management practice in Australia.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882347
Funder
Australian Research Council
Funding Amount
$340,000.00
Summary
High field magnet for materials processing and characterisation. The proposed infrastructure project will bring many Australian-based researchers together to create a completely new niche of materials processing research. Such a facility will be the first of its kind in Australia. This facility will be located in Australia and thus the time required to process and characterize materials will be significantly reduced without a need to send them overseas. As a consequence of the proposed collabora ....High field magnet for materials processing and characterisation. The proposed infrastructure project will bring many Australian-based researchers together to create a completely new niche of materials processing research. Such a facility will be the first of its kind in Australia. This facility will be located in Australia and thus the time required to process and characterize materials will be significantly reduced without a need to send them overseas. As a consequence of the proposed collaboration, a large number of high quality papers and patents are expected. The facility will increase Australia's position in the field of advanced materials processing and will also provide new ideas and concepts, which will be used in practical applications.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453436
Funder
Australian Research Council
Funding Amount
$448,284.00
Summary
An advanced electron microanalytical facility for South-East Queensland. Funding is requested to purchase an electron probe micro-analysis (EPMA) unit to be located at The University of Queensland and to upgrade and re-configure the scanning electron microscope facilities at the Queensland University of Technology. These integrated systems will be shared between the two institutions and will provide much needed infrastructure for several high profile and high performing groups. These groups incl ....An advanced electron microanalytical facility for South-East Queensland. Funding is requested to purchase an electron probe micro-analysis (EPMA) unit to be located at The University of Queensland and to upgrade and re-configure the scanning electron microscope facilities at the Queensland University of Technology. These integrated systems will be shared between the two institutions and will provide much needed infrastructure for several high profile and high performing groups. These groups include; Metallurgy, Materials, Earth Sciences, Chemistry, and Biomaterials. Acquisition of these facilities will complement the instrument mix at both institutions and will provide infrastructure that is necessary to sustain the leading edge research conducted by groups associated with this application.Read moreRead less