Understanding and controlling the construction of molecular electronic and photovoltaic devices using nucleic acids. The efficient generation and use of energy is arguably the most pressing problem the world faces today. This project will enable the construction of molecular electronic and energy generation devices with increased efficiency, and will impact the fields of bio-organic chemistry and material science. Australia will benefit from the cheap and efficient energy produced by these new e ....Understanding and controlling the construction of molecular electronic and photovoltaic devices using nucleic acids. The efficient generation and use of energy is arguably the most pressing problem the world faces today. This project will enable the construction of molecular electronic and energy generation devices with increased efficiency, and will impact the fields of bio-organic chemistry and material science. Australia will benefit from the cheap and efficient energy produced by these new environmentally benign energy generation and transducing devices. A secondary benefit will arise when these devices are applied to medical diagnostics for early detection of diseases. Economic and environmental benefits for the Australian community and Australia's development as a knowledge-based economy will be the result.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882855
Funder
Australian Research Council
Funding Amount
$900,000.00
Summary
High-resolution imaging of live cells and tissue. Understanding the machinery of life and developing technologies that support life's processes requires biological and physical scientists and engineers to monitor molecular events in living systems. The aim is to take advantage of very recent developments in light microscopy to enable the non-invasive imaging of live cells and tissue at a previously unreachable level of detail. The instruments will form the nucleus of a new imaging facility. Sign ....High-resolution imaging of live cells and tissue. Understanding the machinery of life and developing technologies that support life's processes requires biological and physical scientists and engineers to monitor molecular events in living systems. The aim is to take advantage of very recent developments in light microscopy to enable the non-invasive imaging of live cells and tissue at a previously unreachable level of detail. The instruments will form the nucleus of a new imaging facility. Significant advances in research areas including vascular research, cancer, immunology, cell and molecular biology, functional genomics, biotechnology, nanotechnology and material engineering will be of major benefit both nationally and globally.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120102271
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
High performance organic optoelectronic devices - the role of charge carrier lifetime. Organic solar cells offer a sustainable solution to energy production helping to address the challenge of climate change. This project aims to understand the processes that control device performance and to improve solar cells based upon organic semiconductors with the potential to be extremely cheap, recyclable, and mechanically flexible.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100121
Funder
Australian Research Council
Funding Amount
$1,000,000.00
Summary
An analytical transmission electron microscope for the investigation of functional materials, earth processes and novel condensed matter. Sustainablity depends on the delivery of clean energy, pristine water and air, and the manufacture of consumer products with small environmental footprints. Modelling long-term impacts requires an understanding of the hydro-geological cycles. The technologies are well known—efficient electronics, fuel cells, lightweight composites, and so on—but delivery is ....An analytical transmission electron microscope for the investigation of functional materials, earth processes and novel condensed matter. Sustainablity depends on the delivery of clean energy, pristine water and air, and the manufacture of consumer products with small environmental footprints. Modelling long-term impacts requires an understanding of the hydro-geological cycles. The technologies are well known—efficient electronics, fuel cells, lightweight composites, and so on—but delivery is not straightforward. It is clear, however, that novel materials manipulated at fine scales will be key. Transmission electron microscopy (TEM) guides the development of sustainable technologies. The new TEM facility at ANU will accelerate current studies, by enhancing the materials research portfolio, and extending national and international collaborations in materials, geological and earth sciences.Read moreRead less
Smart Nanocapsules for Efficient Cellular Delivery of Bioactive Peptide Drugs. This project will bring about practical benefits in terms of developing efficient therapeutic drug delivery systems, which has a market growth estimated to be ca. 23% p.a. in the world. The novel encapsulation technology developed in this project is not only desirable for biomolecules but also applicable for other functional materials and will find wide applications in a number of fields, such as chemical, food proces ....Smart Nanocapsules for Efficient Cellular Delivery of Bioactive Peptide Drugs. This project will bring about practical benefits in terms of developing efficient therapeutic drug delivery systems, which has a market growth estimated to be ca. 23% p.a. in the world. The novel encapsulation technology developed in this project is not only desirable for biomolecules but also applicable for other functional materials and will find wide applications in a number of fields, such as chemical, food processing and cosmetic industries. Successful completion of the project can also strengthen our capacity to participate in new areas of research and positioning Australia at the forefront of bionanotechnology.Read moreRead less
Clay nanoparticle-facilitated RNAi for non-transgenic modification of crops. This project aims to define the most effective spray formulations, consisting of clay nanoparticles and induced RNA interference (RNAi) to manipulate gene expression in plants. Topical application of double-stranded RNA (dsRNA) for RNAi represents an attractive alternative to genetically engineered crops. However, naked dsRNA is unstable and is not efficiently taken up by plants. For these reasons, topical application o ....Clay nanoparticle-facilitated RNAi for non-transgenic modification of crops. This project aims to define the most effective spray formulations, consisting of clay nanoparticles and induced RNA interference (RNAi) to manipulate gene expression in plants. Topical application of double-stranded RNA (dsRNA) for RNAi represents an attractive alternative to genetically engineered crops. However, naked dsRNA is unstable and is not efficiently taken up by plants. For these reasons, topical application of dsRNA has thus far produced only modest induction of RNAi in plants. Nanoparticle-facilitated manipulation of gene expression in plants will enable sustainable clean green strategies for protecting crops from diseases. This project will result in improved crop protection and productivity and boost the export potential of Australian crops.Read moreRead less
Synergistic nanostimulation of nerve cells using atomic force microscopy technology. The research will develop multifunctional nanoelectrodes for neural prosthetic devices of the future. They will be smaller and more effective, enabling integration with single neural networks in the body, to improve the clinical treatment of severe neurological disorders and loss of sensory (hearing and vision) and motor functions.
Fostering Safe Nanotechnology Research Focused on Critical Public Health Problems. This Project builds upon the applicant's unique interdisciplinary research and collaborations to develop an innovative framework for improving occupational health and safety standards of nanotechnology research at the Australian National University and fostering its focus on critical public health problems such as biosecurity, food and water safety, pollution control and equitable access to health technologies.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE210100036
Funder
Australian Research Council
Funding Amount
$950,000.00
Summary
A customised triple-beam microscope for precise fabricating/characterising . This project aims to establish a customised triple-beam microscope to enable precise fabrication and polishing (using ion beams) and characterisation (using electron beam) of a wide range of advanced materials. It will provide solutions to prepare ultra-high quality and artefact-free specimens for transmission electron microscopy studies, and allow fabrication of unique nanostructures and nanostructured templates for hi ....A customised triple-beam microscope for precise fabricating/characterising . This project aims to establish a customised triple-beam microscope to enable precise fabrication and polishing (using ion beams) and characterisation (using electron beam) of a wide range of advanced materials. It will provide solutions to prepare ultra-high quality and artefact-free specimens for transmission electron microscopy studies, and allow fabrication of unique nanostructures and nanostructured templates for high-performance applications. The customised features of the proposed instrument are the first of its kind in Australia. The new knowledge developed through this project will significantly impact on scientific insights and practical applications of new materials related to physics, chemistry, biology, geology and engineering.Read moreRead less