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Characterisation and fabrication of nanophotonic devices based on multi-layer stacks. The aim of this proposal is to continue the existing collaborative project on fabrication and characterisation of nanophotonic devices based on the multi-layer stack method. The project will integrate the state-of-the-art techniques in the respective collaborating universities to fabricate a nano-probe which can produce an evanescent field approximately four orders of magnitude stronger than that under the conv ....Characterisation and fabrication of nanophotonic devices based on multi-layer stacks. The aim of this proposal is to continue the existing collaborative project on fabrication and characterisation of nanophotonic devices based on the multi-layer stack method. The project will integrate the state-of-the-art techniques in the respective collaborating universities to fabricate a nano-probe which can produce an evanescent field approximately four orders of magnitude stronger than that under the conventional condition. This novel probe provides a key to the successful fabrication of innovative nanophotonic devices including photonic transistors, photonic circuits, high-density data storage disks and drives, nano-motors and biochips, which underpin biotechnology, information technology and optical computing technology.Read moreRead less
Novel Nanofibre-Templated Nanotubes Prepared by Using ABA Block Copolymers. The aim of this project is to prepare new, highly functional nanomaterials using layer-by-layer assembly of polyelectrolytes on a three-dimensional template. Using this approach, a core-shell fibre is initially prepared by alternate deposition of oppositely charged materials onto an electrospun fibre template. The initial fibre can then be dissolved to give hollow nanotubes. New block copolymers, incorporating both charg ....Novel Nanofibre-Templated Nanotubes Prepared by Using ABA Block Copolymers. The aim of this project is to prepare new, highly functional nanomaterials using layer-by-layer assembly of polyelectrolytes on a three-dimensional template. Using this approach, a core-shell fibre is initially prepared by alternate deposition of oppositely charged materials onto an electrospun fibre template. The initial fibre can then be dissolved to give hollow nanotubes. New block copolymers, incorporating both charged and uncharged domains, will be used in the assembly, in order to design tubes with novel properties. The behaviour of these tubes under a variety of pH and solvent conditions will then be examined, and the tubes characterized using various microscopy techniques.Read moreRead less
Biodegradable polymeric microparticles for targeted delivery. The use of microparticles with tuneable physicochemical properties and loading characteristics is of interest in the fields of biomaterials, drug delivery and imaging. Such engineered particles are likely to address problems associated with conventional drugs and drug carriers, including poor disease site selectivity, polymer toxicity, non-biodegradability and free diffusion of drugs throughout the body. These microparticles may provi ....Biodegradable polymeric microparticles for targeted delivery. The use of microparticles with tuneable physicochemical properties and loading characteristics is of interest in the fields of biomaterials, drug delivery and imaging. Such engineered particles are likely to address problems associated with conventional drugs and drug carriers, including poor disease site selectivity, polymer toxicity, non-biodegradability and free diffusion of drugs throughout the body. These microparticles may provide direct advantages to society, including minimally invasive and fast in-vivo diagnostics, localised delivery of drugs and therapeutic agents with increased bioavailability, patient acceptability and reduced healthcare costs.Read moreRead less
Boron nitride nanotubes for tunable conductivity. The proposed research in nanotubes falls into the national research priority areas of advanced materials and breakthrough science. This ANU research group has a leading role in Boron Nitride (BN) nanotube research internationally. The proposed collaborative research will enhance this position and further improve the nation's research profile in nanotechnology. New intellectual properties will be generated if the project is successful, which wi ....Boron nitride nanotubes for tunable conductivity. The proposed research in nanotubes falls into the national research priority areas of advanced materials and breakthrough science. This ANU research group has a leading role in Boron Nitride (BN) nanotube research internationally. The proposed collaborative research will enhance this position and further improve the nation's research profile in nanotechnology. New intellectual properties will be generated if the project is successful, which will benefit the commercialization activity of BN nanotubes at ANU. New PhD and undergraduate students will be trained by the proposed cutting edge research project.Read moreRead less
Using solar photocatalytic oxidation processes to treat organic pollutants in wastewater. The proposal is to use physical-chemical and solar engineering approaches to increase the efficiency of solar photons in the photocatalytic oxidation process applied to the detoxification of organic pollutants in wastewater. New photocatalyists and the effects of photocatalysts's superficial characteristics on the treatment perfomance will be studied. A specific structure for a solar collector for the proce ....Using solar photocatalytic oxidation processes to treat organic pollutants in wastewater. The proposal is to use physical-chemical and solar engineering approaches to increase the efficiency of solar photons in the photocatalytic oxidation process applied to the detoxification of organic pollutants in wastewater. New photocatalyists and the effects of photocatalysts's superficial characteristics on the treatment perfomance will be studied. A specific structure for a solar collector for the process will be developed. A more efficient way to use solar photons in the process and a better conceptual design of solar collector will be two main outcomes expected from the project.Read moreRead less
A novel spectrum encoding technology using nanoparticles for high-density, high-speed information coding and retrieval. The key-sector in high tech markets has been the photonics industry over the last decade, and it will continue to revolutionise our ways of information storage, processing and transfer for the next 10 to 20 years. The current project of novel spectrum-encoding technology will prove to be the key technological innovation in photonics (one of the National Research Priorities), w ....A novel spectrum encoding technology using nanoparticles for high-density, high-speed information coding and retrieval. The key-sector in high tech markets has been the photonics industry over the last decade, and it will continue to revolutionise our ways of information storage, processing and transfer for the next 10 to 20 years. The current project of novel spectrum-encoding technology will prove to be the key technological innovation in photonics (one of the National Research Priorities), which will not only meet the growing demands of the consumer market, but also continue to drive the industry and create new markets. This is in line with the Priority Goals set by the Minister for Education, Science and Training, as it will put Australia into the unique position in the information age.Read moreRead less
Materials World Network: Nanostructured Polymer Templating of Liquid Crystals. Liquid crystals have a range of technological applications, with the most successful being displays used in computers, watches and calculators. These applications are dependent on controlling the interfaces of liquid crystals. This project will combine the areas of liquid crystals and polymer adsorption for the preparation of a new class of intelligent nanomaterials with well-defined properties. These engineered mater ....Materials World Network: Nanostructured Polymer Templating of Liquid Crystals. Liquid crystals have a range of technological applications, with the most successful being displays used in computers, watches and calculators. These applications are dependent on controlling the interfaces of liquid crystals. This project will combine the areas of liquid crystals and polymer adsorption for the preparation of a new class of intelligent nanomaterials with well-defined properties. These engineered materials are of interest in industrial applications, including the development of chemical and biological sensors and drug delivery vehicles. This program also strengthens the ties between two world-class nanotechnology groups, capturing new opportunities in nanostructured materials.Read moreRead less
An investigation of growth processes, structure and properties of biogenically synthesised gold nanoparticles. Nanoparticles can have unique and interesting properties such as optical activity and redox (electronic) behaviour that can be utilised in a number of applications such as drug delivery and cancer hyperthermia treatments, coatings, electronic devices and sensors. The main aims of this research program are to produce novel nanoparticles using an innovative method which uses biological sp ....An investigation of growth processes, structure and properties of biogenically synthesised gold nanoparticles. Nanoparticles can have unique and interesting properties such as optical activity and redox (electronic) behaviour that can be utilised in a number of applications such as drug delivery and cancer hyperthermia treatments, coatings, electronic devices and sensors. The main aims of this research program are to produce novel nanoparticles using an innovative method which uses biological species such as fungi and plant extracts, and to study the growth mechanisms, structure and properties of these nanoparticles. These studies could lead to the discovery of novel nanoparticles with applications in the fields mentioned above. This project also aims to train/educate young Australian graduates in the growing area of advanced materials.Read moreRead less
Novel Materials for Dye Sensitised Solar Cells. Solar energy is the most attractive renewable energy source. Dye sensitised solar cells (DSSCs) are one type of device that can harvest this energy, offering advantages of low materials cost and ease of fabrication when compared to alternative devices. This project aims to develop efficient, flexible DSSCs by using polymer substrates in place of glass. Novel surface modification approaches and microwave processing will be employed to fabricate the ....Novel Materials for Dye Sensitised Solar Cells. Solar energy is the most attractive renewable energy source. Dye sensitised solar cells (DSSCs) are one type of device that can harvest this energy, offering advantages of low materials cost and ease of fabrication when compared to alternative devices. This project aims to develop efficient, flexible DSSCs by using polymer substrates in place of glass. Novel surface modification approaches and microwave processing will be employed to fabricate the nanporous semiconductor electrodes on polymer substrates and to improve cell efficiency. Improved dyes and new electrolyte systems, such as plastic crystals, will be incorporated into the cell to improve efficiency, durability and stability.Read moreRead less
Advanced nanoparticle stabilisation and functionalisation: small particles with huge potential. Australia is strongly investing in nanotechnology and through the governments priority goals 'Frontier Technologies for Building and Transforming Australian Industries' it has been recognised as an important area for investment. This proposal will help develop an internationally recognised nano-industry. It is envisaged that the particles made during this work will have direct implications for the pub ....Advanced nanoparticle stabilisation and functionalisation: small particles with huge potential. Australia is strongly investing in nanotechnology and through the governments priority goals 'Frontier Technologies for Building and Transforming Australian Industries' it has been recognised as an important area for investment. This proposal will help develop an internationally recognised nano-industry. It is envisaged that the particles made during this work will have direct implications for the public - creating a new class of medical diagnostic particles with better resolution and specificity. These particles have the potential to diagnose patients more precisely and at an earlier stage than is currently available. Additionally, these particles could be designed to load drugs and hence could be used to treat diseases such as cancer.Read moreRead less