LIPID AND LIPOPROTEIN ADSORPTION AT BIOMATERIALS AND BIO-DIAGNOSTICS INTERFACES. This project aims to investigate molecular mechanisms involved in the formation of undesired biological deposits on synthetic materials and thereby help establish the scientific basis for the rational design of materials with improved compatibility with biological fluids and the engineering of a new generation of biomedical implant devices and bio-diagnostic devices. It is well known that proteins accumulate on synt ....LIPID AND LIPOPROTEIN ADSORPTION AT BIOMATERIALS AND BIO-DIAGNOSTICS INTERFACES. This project aims to investigate molecular mechanisms involved in the formation of undesired biological deposits on synthetic materials and thereby help establish the scientific basis for the rational design of materials with improved compatibility with biological fluids and the engineering of a new generation of biomedical implant devices and bio-diagnostic devices. It is well known that proteins accumulate on synthetic solid surfaces. This project proposes to investigate whether lipids and lipoproteins also play key roles in the initiation of biological adsorption processes. Combined with the study of the interfacial forces responsible, this information will guide the design of preventative strategies.Read moreRead less
The Interface of Oil-in-Water Emulsions. The interface between two immiscible liquids controls many phenomena including the formation and properties of emulsions, the nature of many chemical separation processes and the behaviour of biological systems. There are few methods to study such interfaces and most of these are susceptible to trace contamination by adventitious surfactants, but emulsions with their large surface area avoid this problem. Significant advances are possible with the new Aus ....The Interface of Oil-in-Water Emulsions. The interface between two immiscible liquids controls many phenomena including the formation and properties of emulsions, the nature of many chemical separation processes and the behaviour of biological systems. There are few methods to study such interfaces and most of these are susceptible to trace contamination by adventitious surfactants, but emulsions with their large surface area avoid this problem. Significant advances are possible with the new Australian technique of electroacoustics, complemented by neutron scattering, nmr, rheological and dielectric response measurements on concentrated emulsions. Our surfactant-free emulsions provide a fundamental breakthrough in such studies, leading to new materials from nanostructures.Read moreRead less
Controlled Macromolecular Architectures for Functional Nanomaterials Design. The research involves an exciting and innovative collaboration between two internationally recognized Australian research groups, cementing Australia's position as a leading country for research in polymer science and nanotechnology. Advanced polymer chemistry will be used to make ?smart? polymers that can controllably respond to changes in their surroundings. These will then be assembled to form materials with dimensio ....Controlled Macromolecular Architectures for Functional Nanomaterials Design. The research involves an exciting and innovative collaboration between two internationally recognized Australian research groups, cementing Australia's position as a leading country for research in polymer science and nanotechnology. Advanced polymer chemistry will be used to make ?smart? polymers that can controllably respond to changes in their surroundings. These will then be assembled to form materials with dimensions of the order of millionths of millimeters - forming so-called "smart nanomaterials". The materials prepared are expected to find application in the agricultural and pharmaceutical sectors, contributing to the well-being of Australian citizens and the development of a robust Australian industry.Read moreRead less
Physico-chemical and Biopharmaceutical Investigations of Novel Drug Delivery Systems for Oral Administration of Lipophilic Drugs. The new platform technology for carrying lipophilic molecules will be applicable to many molecules currently under development by Australian Industry and will inspire novel encapsulation approaches to new and existing drugs as well as functional foods and nutraceuticals. Improved oral bioavailability of anticancer drugs will improve the quality of life of patients, re ....Physico-chemical and Biopharmaceutical Investigations of Novel Drug Delivery Systems for Oral Administration of Lipophilic Drugs. The new platform technology for carrying lipophilic molecules will be applicable to many molecules currently under development by Australian Industry and will inspire novel encapsulation approaches to new and existing drugs as well as functional foods and nutraceuticals. Improved oral bioavailability of anticancer drugs will improve the quality of life of patients, reduce health care costs and provide broader benefits to the community. The Australian biotechnology/pharmaceutical industries can share in a greater proportion of the US$50 billion market for specialised drug delivery, which is increasing by 20% annually. Australia's scientific competitiveness will be strengthened in the fields of nano-encapsulation and colloidal delivery.Read moreRead less
Interfacial Nanofluids. The fundamental understanding of Colloid and Surface Chemistry will be significantly enhanced through the understanding of the formation and properties of interfacial nanofluids. In addition, this project will provide the knowledge of the influence of nanofluids on the lubrication and the surface interaction. The future results will likely have great impact on the development of miniature devices, lab-on-a-chip and microfludics or nanofluidics systems, water treatment, m ....Interfacial Nanofluids. The fundamental understanding of Colloid and Surface Chemistry will be significantly enhanced through the understanding of the formation and properties of interfacial nanofluids. In addition, this project will provide the knowledge of the influence of nanofluids on the lubrication and the surface interaction. The future results will likely have great impact on the development of miniature devices, lab-on-a-chip and microfludics or nanofluidics systems, water treatment, minerals processing, the food industries, pumping of fuel and water, and other processes. And the research described in this proposal will help to maintain the high international profile of Australian science in the field of Colloid and Surface Research. Read moreRead less
Thin Films of Oxide Ceramics. Aluminium oxide films are used extensively in the Australian industries of Protective & Decorative Coatings (examples include door-knobs and cutting-tools). The industry will be offered a remarkably simple process for preparation of high quality films. In the microelectronic industry, the uses of aluminium oxide films as a dielectric alternative to silicon dioxide has just started to emerge world - wide and this new process would make a dramatic impact with commerci ....Thin Films of Oxide Ceramics. Aluminium oxide films are used extensively in the Australian industries of Protective & Decorative Coatings (examples include door-knobs and cutting-tools). The industry will be offered a remarkably simple process for preparation of high quality films. In the microelectronic industry, the uses of aluminium oxide films as a dielectric alternative to silicon dioxide has just started to emerge world - wide and this new process would make a dramatic impact with commercial benefits for Australia. Read moreRead less
Patterned assemblies of molecules on surfaces. Because of their redox and photophysical properties, artificial porphyrin systems have been designed for applications such as light-harvesting antennae, catalysts and sensors. Control of molecular orientation is required in order to construct practical devices, and in this project methods of assembling porphyrins on surfaces in well-defined patterns will be developed. Sophisticated methods will be used to characterise the films produced in these w ....Patterned assemblies of molecules on surfaces. Because of their redox and photophysical properties, artificial porphyrin systems have been designed for applications such as light-harvesting antennae, catalysts and sensors. Control of molecular orientation is required in order to construct practical devices, and in this project methods of assembling porphyrins on surfaces in well-defined patterns will be developed. Sophisticated methods will be used to characterise the films produced in these ways, in order to provide the information necessary to refine procedures and design new molecules suitable for advanced applications. Expected outcomes are new methods and architectures that can ultimately yield devices that act at the molecular level.Read moreRead less
Periodic nano-ratchets: a new paradigm for biomolecule separation. This project proposes the theoretical and experimental study of a new separation principle. The platform technologies developed from this research will see wide ranging applications. They will reveal new insights into fundamental phenomena of membranes and separation processes underpinning development of new generation of separation technologies. New membranes and microchip separation devices which can be applied to genomic, prot ....Periodic nano-ratchets: a new paradigm for biomolecule separation. This project proposes the theoretical and experimental study of a new separation principle. The platform technologies developed from this research will see wide ranging applications. They will reveal new insights into fundamental phenomena of membranes and separation processes underpinning development of new generation of separation technologies. New membranes and microchip separation devices which can be applied to genomic, proteomic, forensic and a range medical, biotechnological and analytical applications will be readily achievable. This is an international and interdisciplinary research project and its outcomes will enhance Australia's ability in frontier technologies, advanced materials.Read moreRead less
The effect of de-gassing on the dispersion and stability of emulsions and colloidal solutions. Although it is widely accepted that oil and water will not mix, the reverse has recently been found to occur (by the applicant) under the unusual conditions of complete de-gassing. This discovery has opened up new areas for investigation and for the development of new processes and products. Hydrocarbon oils and hydrophobic powders can now be readily dispersed in water without the use of additives. Ho ....The effect of de-gassing on the dispersion and stability of emulsions and colloidal solutions. Although it is widely accepted that oil and water will not mix, the reverse has recently been found to occur (by the applicant) under the unusual conditions of complete de-gassing. This discovery has opened up new areas for investigation and for the development of new processes and products. Hydrocarbon oils and hydrophobic powders can now be readily dispersed in water without the use of additives. However, the mechanisms involved have not yet been elucidated and it is the aim of this project to understand the process and develop potential commercial applications.Read moreRead less
IMPACTS OF RIVER NUTRIENTS ON THE GREAT BARRIER REEF LAGOON. While salinity was one of the first properties of the ocean to be studied, it is one of the last to be measured by remote sensing. A prototype air borne salinity mapper will be used in this project along with an airborne multi-spectral sampler to develop a new approach to the study of river plumes. The salinity and nutrient densities will be traced to determine the destination of river runoff. Outcomes will assist the management of ....IMPACTS OF RIVER NUTRIENTS ON THE GREAT BARRIER REEF LAGOON. While salinity was one of the first properties of the ocean to be studied, it is one of the last to be measured by remote sensing. A prototype air borne salinity mapper will be used in this project along with an airborne multi-spectral sampler to develop a new approach to the study of river plumes. The salinity and nutrient densities will be traced to determine the destination of river runoff. Outcomes will assist the management of the Great Barrier Reef Marine Park and land management near the coast, and will improve our understanding of the carbon sink in coastal waters.Read moreRead less