Understanding and improving resistive-switching in hafnium-oxide-based high-k dielectrics for non-volatile memory applications. This project aims to develop the technology for fabricating a new class of high-density, non-volatile memory for use in portable electronic devices and other embedded electronic systems.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100134
Funder
Australian Research Council
Funding Amount
$500,000.00
Summary
Integrated photodetector array fabrication facility. Sensing is becoming a ubiquitous requirement for nearly all physical, chemical and biological research fields, and is increasingly important for Australia's national security and industry competitiveness. This proposal is aimed at building Australia's strengths in optoelectronic sensing technologies, enhancing and enabling research and technologies for innovative environmental monitoring, medical diagnostics, new technologies for mineral expl ....Integrated photodetector array fabrication facility. Sensing is becoming a ubiquitous requirement for nearly all physical, chemical and biological research fields, and is increasingly important for Australia's national security and industry competitiveness. This proposal is aimed at building Australia's strengths in optoelectronic sensing technologies, enhancing and enabling research and technologies for innovative environmental monitoring, medical diagnostics, new technologies for mineral exploration and improved evaluation of remediation of mine sites, through to the surveillance and sensing needs of customs, defence and national security. In doing so, it will enhance Australia's research profile as one of the world's leaders in the development and use of optoelectronic sensing.Read moreRead less
A fundamental study of electronic transport in advanced semiconductor nanostructures. The principal aim of this project is to attract and retain very high calibre early career researchers by providing them with the best-available infrastructure and research environment, combined with world-class supervision and mentoring. The project brings together an outstanding team of international collaborators, who will work with the early career researchers to ensure that they are trained and mentored at ....A fundamental study of electronic transport in advanced semiconductor nanostructures. The principal aim of this project is to attract and retain very high calibre early career researchers by providing them with the best-available infrastructure and research environment, combined with world-class supervision and mentoring. The project brings together an outstanding team of international collaborators, who will work with the early career researchers to ensure that they are trained and mentored at an international level. The new science, novel characterisation methods, and theoretical models that are outcomes of this project will provide new opportunities and expertise to advance the strategic defence and national security interests of Australia, and the emerging Australian semiconductor device and solar cell industry. Read moreRead less
Transistor-based sensor technology for fast, reliable and accurate in situ monitoring of recycled wastewater. Water recycling is becoming critical for water supplies worldwide, due to declining natural supplies of fresh water, combined with increasing demand. The greatest community and industry concerns over recycled water are quality assurance and relative cost. Ensuring quality requires monitoring of contaminants, yet no single real-time technology exists to measure the myriad of potential con ....Transistor-based sensor technology for fast, reliable and accurate in situ monitoring of recycled wastewater. Water recycling is becoming critical for water supplies worldwide, due to declining natural supplies of fresh water, combined with increasing demand. The greatest community and industry concerns over recycled water are quality assurance and relative cost. Ensuring quality requires monitoring of contaminants, yet no single real-time technology exists to measure the myriad of potential contaminants. This project will develop technology using AlGaN/GaN-based transistors, sensitised to different contaminants, enabling multi-analyte real-time sensor arrays. In situ monitoring systems based on such arrays will be fast, accurate, reliable, low-cost, and applicable to a broad variety of water recycling projects.Read moreRead less
Tunable metamaterials for terahertz and infrared applications. This project proposes novel low-cost miniature devices for spectroscopic, spatial, and temporal manipulation of infrared and terahertz waves, which are important for security and short range communication applications. By enabling the modulation of infrared and terahertz signals, the intended outcome is a platform for imaging applications, detection of chemical composition of objects, and future high-bandwidth communications. Using m ....Tunable metamaterials for terahertz and infrared applications. This project proposes novel low-cost miniature devices for spectroscopic, spatial, and temporal manipulation of infrared and terahertz waves, which are important for security and short range communication applications. By enabling the modulation of infrared and terahertz signals, the intended outcome is a platform for imaging applications, detection of chemical composition of objects, and future high-bandwidth communications. Using microfabrication techniques, the project plans to create metamaterials integrated with micro-electro-mechanical systems, which dynamically vary their electromagnetic properties. This technology would enable the creation of new devices that can controllably absorb, reflect or transmit infrared and terahertz signals.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100024
Funder
Australian Research Council
Funding Amount
$240,000.00
Summary
Optical profiler with dynamic micro electro-mechanical systems capability. This facility will allow Australian researchers to access the world's best capability in dynamic, time resolved, optical three-dimensional profiling of surfaces and devices. It will advance a raft of science research and industry applications characterising natural and artificial materials and underpinning next generation optical, photonic and microelectronic devices.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100159
Funder
Australian Research Council
Funding Amount
$360,000.00
Summary
National facility for biased target deposition of alloyed nanolayers. This facility will enhance Australia's strengths and capabilities in fabricating structures, with applications in multiple research fields including opto-magneto-electronics, next generation lithium ion batteries and energy nanogenerators. It will enhance Australia's research profile as a leader in nanotechnology.
Fundamental electronic transport in emerging one-dimensional nanoelectronic devices. This project aims to understand the mechanisms limiting electronic transport in one-dimensional nanoelectronic devices and structures at temperatures relevant for practical device operation. One-dimensional nanoelectronic devices will be the building blocks of future technological innovation. This project will use a characterisation approach, numerical modelling and simulation, which promise to deliver knowledge ....Fundamental electronic transport in emerging one-dimensional nanoelectronic devices. This project aims to understand the mechanisms limiting electronic transport in one-dimensional nanoelectronic devices and structures at temperatures relevant for practical device operation. One-dimensional nanoelectronic devices will be the building blocks of future technological innovation. This project will use a characterisation approach, numerical modelling and simulation, which promise to deliver knowledge and analysis tools for ongoing innovation and optimisation in semiconductor nanoelectronics.Read moreRead less
Advanced microwave and millimetre-wave microelectromechanical technologies for wireless communications. The project deals with the development and integration of radio frequency microelectromechanical devices that can reduce space and cost concomitant with enhanced performance. The outcomes of this proposal are devices with increased functionality required for multi-gigabit data rate transmission and millimetre wave wireless technologies.
Ion-beam synthesis of functional oxides for next generation memory devices. This project seeks to explore a low-temperature approach to stoichiometry control using direct oxide synthesis and defect-engineering based on ion-implantation, a routine semiconductor fabrication process. This has the potential to improve device manufacturability and functionality. In thin film form, transition metal oxides can be subjected to intense electric fields and exhibit characteristic resistance changes suitabl ....Ion-beam synthesis of functional oxides for next generation memory devices. This project seeks to explore a low-temperature approach to stoichiometry control using direct oxide synthesis and defect-engineering based on ion-implantation, a routine semiconductor fabrication process. This has the potential to improve device manufacturability and functionality. In thin film form, transition metal oxides can be subjected to intense electric fields and exhibit characteristic resistance changes suitable for non-volatile memory applications. However, their electrical response depends critically on stoichiometry and this must be precisely engineered for optimal device performance. This project aims to develop next-generation memory devices as a replacement for current flash memory. The proposed technology uses resistance changes in functional-oxides to store information, and offers the potential for smaller and faster memory.Read moreRead less