Linkage Infrastructure, Equipment And Facilities - Grant ID: LE170100233
Funder
Australian Research Council
Funding Amount
$250,000.00
Summary
Characterisation of infrared imaging technologies. This project aims to establish a facility for two-dimensional (2D) infrared sensor array testing and prototyping. Systematic characterisation and prototyping of 2D imaging arrays is vital in showcasing and realising Australia's innovation and research investment in photodetector technologies. This facility will enable research on 2D imaging arrays, such as pixel yield and cross-talk, device reliability physics, failure mechanisms, noise and long ....Characterisation of infrared imaging technologies. This project aims to establish a facility for two-dimensional (2D) infrared sensor array testing and prototyping. Systematic characterisation and prototyping of 2D imaging arrays is vital in showcasing and realising Australia's innovation and research investment in photodetector technologies. This facility will enable research on 2D imaging arrays, such as pixel yield and cross-talk, device reliability physics, failure mechanisms, noise and long-term stability. The facility will demonstrate Australia's innovative imaging technologies, applicable in science, industry, defence and security, attracting interest from both Australian and international industries.Read moreRead less
Future Distribution Grids based on Reconfigurable Smart Microgrid Clusters. This aims of the project are to develop innovative paradigm shifting concepts in which power distributions grids will be self sufficient to look after themselves in the absence of power transmission infrastructure. It is expected that in future several renewable energy based distributed generators (DGs) will be dotted in power distribution systems. It is estimated that within another couple of decades sufficient number o ....Future Distribution Grids based on Reconfigurable Smart Microgrid Clusters. This aims of the project are to develop innovative paradigm shifting concepts in which power distributions grids will be self sufficient to look after themselves in the absence of power transmission infrastructure. It is expected that in future several renewable energy based distributed generators (DGs) will be dotted in power distribution systems. It is estimated that within another couple of decades sufficient number of DGs will be placed in networks so much so that they will be able to meet the load demand of domestic and commercial customers. Therefore the focus of this project is to find innovative approaches in which several microgrids, equipped with single-phase and three-phase DGs can work cohesively while supporting each other.Read moreRead less
New insights into fundamental carrier transport in type-II superlattices. Type-II superlattice (T2SL) based semiconductors have emerged as a rival to well-established HgCdTe-based IR detectors, promising comparable performance at significantly lower cost. T2SLs are complex nanostructures that exhibit multiple-carrier and highly-anisotropic electronic transport properties, which renders them exceedingly challenging to study experimentally. The lack of reliable experimental data has limited optimi ....New insights into fundamental carrier transport in type-II superlattices. Type-II superlattice (T2SL) based semiconductors have emerged as a rival to well-established HgCdTe-based IR detectors, promising comparable performance at significantly lower cost. T2SLs are complex nanostructures that exhibit multiple-carrier and highly-anisotropic electronic transport properties, which renders them exceedingly challenging to study experimentally. The lack of reliable experimental data has limited optimisation and modelling efforts, and thus hampered progress. This project aims to systematically study electronic transport in T2SLs, both experimentally and theoretically, by employing world-leading mobility spectrum techniques developed at UWA and state-of-the art T2SL structures from three world leaders in T2SLs.Read moreRead less
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
Dark current and noise mechanisms in nBn HgCdTe infrared detectors. Novel mercury cadmium telluride (HgCdTe) nBn (two n-type semiconductors sandwiching a barrier layer) infrared (IR) detectors are theoretically capable of operating at higher temperatures than conventional IR detectors. Their reduced cooling requirements lead to reductions in the size, weight and power of IR imaging systems without loss in IR detection performance. Unfortunately, HgCdTe nBn detectors are currently affected by non ....Dark current and noise mechanisms in nBn HgCdTe infrared detectors. Novel mercury cadmium telluride (HgCdTe) nBn (two n-type semiconductors sandwiching a barrier layer) infrared (IR) detectors are theoretically capable of operating at higher temperatures than conventional IR detectors. Their reduced cooling requirements lead to reductions in the size, weight and power of IR imaging systems without loss in IR detection performance. Unfortunately, HgCdTe nBn detectors are currently affected by non-ideal dark current and noise levels whose physical origins and nature are poorly understood. The proposed experimental and theoretical investigations and optimisations are anticipated to minimise such non-idealities and thus enable the demonstration of HgCdTe nBn IR detectors capable of revolutionising portable IR detection systems for security and rescue applications.Read moreRead less
Transition to Customer Response Driven Networks. The project seeks to develop an electrical network costing framework that appropriately rewards customers who act to reduce network stress. The solution to the existing explosion in distribution network costs is to develop customer-responsive solutions in demand management and use of storage. The aim of this project is to develop a framework for network costs that is driven by local congestion and which would reward customer-responsive solutions. ....Transition to Customer Response Driven Networks. The project seeks to develop an electrical network costing framework that appropriately rewards customers who act to reduce network stress. The solution to the existing explosion in distribution network costs is to develop customer-responsive solutions in demand management and use of storage. The aim of this project is to develop a framework for network costs that is driven by local congestion and which would reward customer-responsive solutions. The vision is that the aggregator would provide customers with communications/control equipment that would automate the changes in the responsiveness so that customer-generated load shifting would act to limit peaks.Read moreRead less
Band engineered heterostructures for next generation mercury cadmium telluride infrared photodetectors. The application of unique heterostructures in mercury cadmium telluride (HgCdTe) photodetectors is proposed to address at least four problems: increase of operating temperature, passivation, multiband operation, fill factor. This ambitious project will lead to a significant step forward the HgCdTe infrared photodetector physics and technology.
High speed, high sensitivity thermal imaging. This project aims to increase sensitivity-speed product of thermal imagers by the novel using porous materials. Increased sensitivity-speed products will improve thermal imager effectiveness in motion capture and high resolution remote sensing applications. To develop these porous materials, this project will study the interdependence of optical, mechanical, thermal and electrical properties at the micro- and nano-scale. It will create a narrowband r ....High speed, high sensitivity thermal imaging. This project aims to increase sensitivity-speed product of thermal imagers by the novel using porous materials. Increased sensitivity-speed products will improve thermal imager effectiveness in motion capture and high resolution remote sensing applications. To develop these porous materials, this project will study the interdependence of optical, mechanical, thermal and electrical properties at the micro- and nano-scale. It will create a narrowband resonant cavity detector which increases sensitivity and provides spectral filtering for remote sensing and gas detection. This technology is built on a low-cost scalable all-silicon platform. This technology could benefit road safety, border security, defence, aerospace, remote sensing and industrial monitoring.Read moreRead less
Transforming Microgrid to Virtual Power Plant –ICT Frameworks,Tools,Control. The project aims to enhance large scale renewable penetrations to national power grid by advancing control, optimization, and ancillary services of Virtual Power Plants (VPPs), considering different disruptive events including recent South Australian blackout. This project expects to create new control, frame communication architecture, develop plug and play type IoT enabled grid interfacing inverter, and optimize resou ....Transforming Microgrid to Virtual Power Plant –ICT Frameworks,Tools,Control. The project aims to enhance large scale renewable penetrations to national power grid by advancing control, optimization, and ancillary services of Virtual Power Plants (VPPs), considering different disruptive events including recent South Australian blackout. This project expects to create new control, frame communication architecture, develop plug and play type IoT enabled grid interfacing inverter, and optimize resource management for distributed VPPs. The anticipated benefits from this institutional level collaborations are that VPPs help in enhancing national power grid operations during normal and disruptive conditions when more renewables are connected and also secure benefits of consumers, prosumers, and grid operators.Read moreRead less
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