High performance conductive mesoporous carbon electrodes: a low energy desalination alternative. The high cost of existing desalination technology has limited its wider application. There is an urgent need for alternatives which require less energy than current methods. The proposed electrosorption process utilising porous carbon electrodes has the advantage of very low energy demand. Electrosorption therefore has the opportunity to become an alternative desalination option for application in a ....High performance conductive mesoporous carbon electrodes: a low energy desalination alternative. The high cost of existing desalination technology has limited its wider application. There is an urgent need for alternatives which require less energy than current methods. The proposed electrosorption process utilising porous carbon electrodes has the advantage of very low energy demand. Electrosorption therefore has the opportunity to become an alternative desalination option for application in a national and global water desalination market. Advancement in water desalination technology has the potential for a profound social, economical and environmental impact. This vital research is aligned with the National Research Priority 1, An Environmentally Sustainable Australia; Priority Goal: Water, A critical resource.Read moreRead less
Electro-Optical Primers for Safe Use and Clean Manufacturing. Conventional primers contain a mechanically-sensitive primary explosive that is used to detonate the more stable propellant in a bullet. This project aims to address the health and environmental impacts of heavy metals in current primers by replacing them with benign, electrically or optically activated silicon-based materials. Modern semiconductor fabrication techniques will be used to develop safe and clean primers through cost-effe ....Electro-Optical Primers for Safe Use and Clean Manufacturing. Conventional primers contain a mechanically-sensitive primary explosive that is used to detonate the more stable propellant in a bullet. This project aims to address the health and environmental impacts of heavy metals in current primers by replacing them with benign, electrically or optically activated silicon-based materials. Modern semiconductor fabrication techniques will be used to develop safe and clean primers through cost-effective doping and deposition protocols. The expected outcomes of the project include a sovereign primer manufacturing capability for Australia. This will provide a significant strategic advantage and health benefits for law enforcement and defence personnel during live fire training and firing range exercises.Read moreRead less
Advanced hierarchical materials for separation applications. The proposed project represents an international collaboration between Monash University and Fudan University and builds on the research strengths within these two Institutions in nano-materials research and applications. The proposed research will lead to a new class of materials for use in the chemical and biological industries, making their operation more efficient and permitting new separations to be performed. The research will ....Advanced hierarchical materials for separation applications. The proposed project represents an international collaboration between Monash University and Fudan University and builds on the research strengths within these two Institutions in nano-materials research and applications. The proposed research will lead to a new class of materials for use in the chemical and biological industries, making their operation more efficient and permitting new separations to be performed. The research will also pioneer new techniques for use in nano-engineering materials and falls within one of Australia's National Research Priorities: Frontier Technologies for Building and Transforming Australian Industries.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989615
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
Melbourne Platform for Surface Characterisation of Structured Materials. The Australian economy is gradually expanding its manufacturing base through the development of the nanotechnology and biotechnology sectors. This will lead to production of a more diverse range of elaborately transformed goods. A key contributor to these export opportunities will be the nanotechnology sector since at the present time no country has a real nanotechnology based economy and there are many niche markets availa ....Melbourne Platform for Surface Characterisation of Structured Materials. The Australian economy is gradually expanding its manufacturing base through the development of the nanotechnology and biotechnology sectors. This will lead to production of a more diverse range of elaborately transformed goods. A key contributor to these export opportunities will be the nanotechnology sector since at the present time no country has a real nanotechnology based economy and there are many niche markets available for smaller countries such as Australia. This proposal helps to build quality control and characterisation infrastructure that will facilitate prototyping and design of nanoscale devices and sensors for next generation manufacturing.Read moreRead less
Opto-Microfluidics: A Rapid and Sensitive Platform for Biological Diagnostics. One in four people above 25 years suffer from diabetes-related diseases in Australia, with an associated economic cost exceeding $3 billion a year. A microdevice for continuous glucose monitoring would help patients to manage the disease, leading to huge individual, clinical and societal benefits. Life expectancy is expected to increase along with quality of life. Integration of the microdevice with insulin delivery w ....Opto-Microfluidics: A Rapid and Sensitive Platform for Biological Diagnostics. One in four people above 25 years suffer from diabetes-related diseases in Australia, with an associated economic cost exceeding $3 billion a year. A microdevice for continuous glucose monitoring would help patients to manage the disease, leading to huge individual, clinical and societal benefits. Life expectancy is expected to increase along with quality of life. Integration of the microdevice with insulin delivery would realise an 'artificial pancreas', revolutionising the management and treatment of the disease. The technology will also provide a platform for other point-of-care medical diagnostic devices, which will allow early participation in this emerging market and cement Australia's position in bionanotechnology.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775562
Funder
Australian Research Council
Funding Amount
$500,000.00
Summary
The Melbourne Nanofabrication Facility. Australia is desperately short of facilities for actual fabrication, prototyping and construction of advanced micromechanical and nanoscale systems. This is impeding both academic researchers and industrial developers in the materials, optics and biotechnological industries. The proposed instrument would complete the development of Australia's newest high resolution microscopy centre and enable a wide range of users to image, measure, build and design comp ....The Melbourne Nanofabrication Facility. Australia is desperately short of facilities for actual fabrication, prototyping and construction of advanced micromechanical and nanoscale systems. This is impeding both academic researchers and industrial developers in the materials, optics and biotechnological industries. The proposed instrument would complete the development of Australia's newest high resolution microscopy centre and enable a wide range of users to image, measure, build and design complex nanostructures at the atomic level and upwards. Read moreRead less
Zeolitic Nanoflake-Polymer Composite Membranes for Low Energy Desalination. The desalination of seawater is becoming an important source of drinking water for Australia. The current desalination process using polymer membranes is energy-intensive. The proposed project will contribute to the development of low energy desalination technology by advancing membrane design and fabrication techniques. The use of zeolitic nanoflake-polymer composite membranes developed in this project is expected to su ....Zeolitic Nanoflake-Polymer Composite Membranes for Low Energy Desalination. The desalination of seawater is becoming an important source of drinking water for Australia. The current desalination process using polymer membranes is energy-intensive. The proposed project will contribute to the development of low energy desalination technology by advancing membrane design and fabrication techniques. The use of zeolitic nanoflake-polymer composite membranes developed in this project is expected to substantially reduce energy consumption in the desalination process. This research will produce important economic and environmental benefits by developing a green technology for fresh water production and water treatment for power generation, irrigation and other industrial uses.Read moreRead less
Novel nanostructured alloy membranes for hydrogen permeation: Advanced materials technology for renewable energy. Hydrogen purification by alloy membranes is a key technology in maintaining the greenhouse gas emission low while using the fossil fuels including coal for energy generation. However, the alloys currently available for the membrane separation are mostly based on a costly precious metal palladium, making the application of the technology limited. The proposed non-equilibrium material ....Novel nanostructured alloy membranes for hydrogen permeation: Advanced materials technology for renewable energy. Hydrogen purification by alloy membranes is a key technology in maintaining the greenhouse gas emission low while using the fossil fuels including coal for energy generation. However, the alloys currently available for the membrane separation are mostly based on a costly precious metal palladium, making the application of the technology limited. The proposed non-equilibrium material processing will enable us to fabricate novel nanocomposite niobium-based alloys to which excellent hydrogen permeation characteristics are expected with high economic viability. Successful development of the proposed alloys could enhance the competitiveness of the Australian coal industry worldwide.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE230101021
Funder
Australian Research Council
Funding Amount
$435,000.00
Summary
Developing tunable nanoporous graphene membranes for resource recovery. This project aims to advance the development of atom-thick nanoporous graphene molecular filters (membranes) to tackle challenging separations in the chemical industry and open new pathways to recover valuable materials from waste streams. The extreme thinness of these membranes allows them to separate molecules with a fraction of the energy typically used by commercially available technologies. The proposed electrochemical ....Developing tunable nanoporous graphene membranes for resource recovery. This project aims to advance the development of atom-thick nanoporous graphene molecular filters (membranes) to tackle challenging separations in the chemical industry and open new pathways to recover valuable materials from waste streams. The extreme thinness of these membranes allows them to separate molecules with a fraction of the energy typically used by commercially available technologies. The proposed electrochemical platform is expected to fabricate and operate fit-for-purpose membranes with unprecedented control. Significant new knowledge in the areas of material engineering, nanofluidics, and membranes is expected from exploiting this platform to study ion transport under confinement and make membranes for resource recovery.Read moreRead less
Hybrid diamond materials for next generation sensing, biodiagnostic and quantum devices. Nanodiamond mixed with non-diamond materials will revolutionise quantum-photonic devices spawning a step change in nanoscale bio-chemical and remote sensing. The outcomes of this work will have a significant impact on the prognosis of diseases, security, and communications and will enhance Australia's reputation as a world leader in nano-materials.