Special Research Initiatives - Grant ID: SR200200197
Funder
Australian Research Council
Funding Amount
$183,144.00
Summary
Seeing yourself in Australian digital cultural heritage. To ensure that Australia's museums, galleries and archives reflect what is important to all of us as we move into the digital age, we need to increase accessibility, participation and ownership for all Australians. We therefore aim to discover and test best practices for engaging diverse members of the general public in the creation of digital cultural heritage. Outcomes will include engagement of new visitor groups and increased accessibi ....Seeing yourself in Australian digital cultural heritage. To ensure that Australia's museums, galleries and archives reflect what is important to all of us as we move into the digital age, we need to increase accessibility, participation and ownership for all Australians. We therefore aim to discover and test best practices for engaging diverse members of the general public in the creation of digital cultural heritage. Outcomes will include engagement of new visitor groups and increased accessibility to collections. Cultural institutions will gain access to new digital practices for telling a wide range of lesser-known stories. This will bring cultural and social benefits as well as economic benefits by putting our cultural sector at the forefront of cutting edge international digital practice.Read moreRead less
Learned Academies Special Projects - Grant ID: LA170100023
Funder
Australian Research Council
Funding Amount
$345,000.00
Summary
Decadal plan for technology research in Australia. This project aims to assess the research needs of key Australian industry sectors, based on likely scenarios for Australia in 2030 and industry’s readiness to adopt new technology. The project expects to highlight opportunities for research organisations and companies to deliver research outcomes and to identify skilled people to support Australian competitiveness. These opportunities can then be mapped against current research efforts to help p ....Decadal plan for technology research in Australia. This project aims to assess the research needs of key Australian industry sectors, based on likely scenarios for Australia in 2030 and industry’s readiness to adopt new technology. The project expects to highlight opportunities for research organisations and companies to deliver research outcomes and to identify skilled people to support Australian competitiveness. These opportunities can then be mapped against current research efforts to help provide a road map for future research strategies. The project outputs will help guide the implementation of programs by industry and research organisations, and ensure a higher quality workforce with skills matched to future demand.Read moreRead less
The trailblazing women and the law project. The trailblazing women and the law project will create, showcase and analyse the first publicly accessible, national, oral history of seven decades of Australia’s pioneer women lawyers contributing to the fields of gender, oral history, biography, law, citizenship, social networks, cultural informatics, ePublication and women’s history archiving.
Discovery Early Career Researcher Award - Grant ID: DE160100715
Funder
Australian Research Council
Funding Amount
$330,000.00
Summary
Tunable plasmonics in ultra-doped transition metal oxides and chalcogenides. The project is designed to explore new classes of plasmonic materials based on low-dimensional transition metal oxide and chalcogenide nanostructures. These crystals, with stratified structures and high surface affinities to charged particles, present a new frontier in plasmonics by allowing reversible stimuli induced doping and defect embedding. The project plans to focus on achieving tunable plasmonic properties acros ....Tunable plasmonics in ultra-doped transition metal oxides and chalcogenides. The project is designed to explore new classes of plasmonic materials based on low-dimensional transition metal oxide and chalcogenide nanostructures. These crystals, with stratified structures and high surface affinities to charged particles, present a new frontier in plasmonics by allowing reversible stimuli induced doping and defect embedding. The project plans to focus on achieving tunable plasmonic properties across a broad spectrum from ultraviolet to infrared light. Targets are systems with low propagation losses or ultra-sensitivity towards environmental changes. The anticipated outcomes will serve as a base to establish the next generation plasmonic communication and sensing systems with active on-chip controllability, which could be used as the base of future telecommunications, energy harvesting and sensing systems.Read moreRead less
Magnetofection In An Oscillating Magnetic Field. The success of genetic engineering is largely dependent on the ability of transfection agents to deliver genes. Low transfection efficiency is now widely recognised as a critical bottleneck to successful gene delivery. The recent emphasis on the development of nanoscale delivery agents has led to new physics and chemistry-based techniques, which take advantage of charge interactions and energetic processes. This multidisciplinary project aims to a ....Magnetofection In An Oscillating Magnetic Field. The success of genetic engineering is largely dependent on the ability of transfection agents to deliver genes. Low transfection efficiency is now widely recognised as a critical bottleneck to successful gene delivery. The recent emphasis on the development of nanoscale delivery agents has led to new physics and chemistry-based techniques, which take advantage of charge interactions and energetic processes. This multidisciplinary project aims to address this highly significant problem by developing a novel methodology to manipulate nanoparticles under the influence of an oscillating magnetic field to achieve high transfection efficiencies in a highly relevant model of epigenetic reprogramming.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE200100119
Funder
Australian Research Council
Funding Amount
$424,607.00
Summary
Manipulation of non-wetting droplets for cell culture. We have recently discovered an innovative and interdisciplinary approach for manipulating non-wetting droplets called “liquid marbles” as a platform for three-dimensional cell culture. This project aims to elucidate the fundamental physics underpinning the electrostatic handling concept of this platform technology. The project is expected to deliver an inexpensive but sophisticated cell culture platform that is well-suited for high-throughpu ....Manipulation of non-wetting droplets for cell culture. We have recently discovered an innovative and interdisciplinary approach for manipulating non-wetting droplets called “liquid marbles” as a platform for three-dimensional cell culture. This project aims to elucidate the fundamental physics underpinning the electrostatic handling concept of this platform technology. The project is expected to deliver an inexpensive but sophisticated cell culture platform that is well-suited for high-throughput drug screening and preparing cells for implantation therapy. Significant benefits for end users in pharmaceutical industry, life sciences research and hospitals are expected from the project and the application of the developed technology.Read moreRead less
Establishing Design Principles Of Polymers For Intracellular Delivery . Engineered polymers have played a central role in the field of bionanotechnology by enabling targeted nanoscale cell interactions. Progress in the field of intracellular delivery is currently affected by a major bottleneck due to the absence of effective polymers that is applicable across the range of bimolecular cargoes. In essence depending on the type of cargo: DNA, RNA or protien, the polymer needs programmability. The l ....Establishing Design Principles Of Polymers For Intracellular Delivery . Engineered polymers have played a central role in the field of bionanotechnology by enabling targeted nanoscale cell interactions. Progress in the field of intracellular delivery is currently affected by a major bottleneck due to the absence of effective polymers that is applicable across the range of bimolecular cargoes. In essence depending on the type of cargo: DNA, RNA or protien, the polymer needs programmability. The limited tunability of traditional polymers agents makes them unsuitable for this particular application. The multidisciplinary project addresses this significant problem by engineering novel sequences of defined polymer based nanoscale agents to achieve efficient delivery in cells.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE210100415
Funder
Australian Research Council
Funding Amount
$432,483.00
Summary
Cross-layer Design for Ultra-reliable Low-latency Communications. This project aims to develop fundamental theories and practical technologies for ultra-reliable low-latency communications – one of the grand challenges in 5G cellular networks. Due to the dynamic nature of wireless networks, existing approaches dividing networks into multiple layers cannot guarantee a hard deadline with high reliability. The outcomes of the project will be cross-layer models for characterising the end-to-end perf ....Cross-layer Design for Ultra-reliable Low-latency Communications. This project aims to develop fundamental theories and practical technologies for ultra-reliable low-latency communications – one of the grand challenges in 5G cellular networks. Due to the dynamic nature of wireless networks, existing approaches dividing networks into multiple layers cannot guarantee a hard deadline with high reliability. The outcomes of the project will be cross-layer models for characterising the end-to-end performance, a prediction and communication co-design framework for improving the delay-reliability trade-off, and an online architecture for implementing model-based algorithms in real networks. They will underpin the development of remote control and advancing automation in manufacturing, transportation, mining, etc.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120101569
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
A novel graphene-based optical sensing platform. Graphene has extraordinary electronic and optical properties as well as large specific surface area which afford great potential for sensor applications. This project will develop an innovative sensing platform to bring graphene related materials and devices a step closer to practical applications, particularly in biochemical sensors.
Understanding the properties of layered nanostructures using in-situ TEM. This project aims to support the practical applications of layered nanostructure-based devices and systems. The development of layered chalcogenide nanostructures is a global research focus due to their potential applications in the energy sector. However, their structure–property link is unclear due to the lack of direct correlation between their structure and properties. This project aims to establish the intrinsic struc ....Understanding the properties of layered nanostructures using in-situ TEM. This project aims to support the practical applications of layered nanostructure-based devices and systems. The development of layered chalcogenide nanostructures is a global research focus due to their potential applications in the energy sector. However, their structure–property link is unclear due to the lack of direct correlation between their structure and properties. This project aims to establish the intrinsic structure–property link by closely correlating the structure (and structural variations) and properties (and varied properties) simultaneously determined from individual nanostructures inside a transmission electron microscope. Expected project outcomes may advance the knowledge base, and provide guidelines for the development of nanostructure-based devices for their high-performance applications, especially in the energy sector.Read moreRead less