Single molecule spectroscopy of functional luminescent materials. This project will provide new insights into the light induced processes occurring in individual molecules of potentially useful luminescent materials. The molecules to be studied include new fluorescent probes of biological and polymer systems and single light harvesting nanoparticles with applications in solar energy collection and conversion. The program of work proposed will increase our understanding of light induced chemical ....Single molecule spectroscopy of functional luminescent materials. This project will provide new insights into the light induced processes occurring in individual molecules of potentially useful luminescent materials. The molecules to be studied include new fluorescent probes of biological and polymer systems and single light harvesting nanoparticles with applications in solar energy collection and conversion. The program of work proposed will increase our understanding of light induced chemical processes and assist the design of advanced materials for photomolecular devices.Read moreRead less
Ultrasonic Processing of Dairy Ingredients to Control Protein Aggregation and Promote Heat Stability. This project is an emerging collaboration between the University of Melbourne, Food Science Australia and the Dairy Ingredients Group of Australia. We aim to use acoustically generated chemical and physical effects to modify dairy proteins. Transformation of the sulphur-containing proteins by this means should overcome many of the difficulties currently encountered in thermal processing of whole ....Ultrasonic Processing of Dairy Ingredients to Control Protein Aggregation and Promote Heat Stability. This project is an emerging collaboration between the University of Melbourne, Food Science Australia and the Dairy Ingredients Group of Australia. We aim to use acoustically generated chemical and physical effects to modify dairy proteins. Transformation of the sulphur-containing proteins by this means should overcome many of the difficulties currently encountered in thermal processing of whole milk and whey proteins. This work will place the Australian dairy industry in a pre-eminent position for the development of valuable, heat-stable and uniquely functional ingredients based on novel micro/nano structures. Existing world class expertise will be further developed in ultrasonic processing and sonochemistry as frontier technologies.Read moreRead less
The rational development of improved pre-conditioning agents for the removal of oil contamination from wildlife and rocky foreshore. Wildlife and ecological resources such as Phillip Island's Little Penguin colony (with 500,000 visitors p.a.) and its environment are at the heart of Australia's ecotourism industry. If properly managed, such resources make significant contributions to the economy and can provide diverse employment opportunities for local communities. They also increase awareness o ....The rational development of improved pre-conditioning agents for the removal of oil contamination from wildlife and rocky foreshore. Wildlife and ecological resources such as Phillip Island's Little Penguin colony (with 500,000 visitors p.a.) and its environment are at the heart of Australia's ecotourism industry. If properly managed, such resources make significant contributions to the economy and can provide diverse employment opportunities for local communities. They also increase awareness of, and sensitivity to, environmental issues in general. Developing and implementing new and improved techniques for the rescue and rehabilitation of oiled wildlife and for the remediation of contaminated foreshore, apart from its inherent value, will contribute to the sustainability of such resources both at the national and international level. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0231228
Funder
Australian Research Council
Funding Amount
$500,000.00
Summary
Victorian Environmental Scanning Electron Microscopy Facility. The aim of this proposal is to establish a state-of-the-art Environmental Scanning Electron Microscope (ESEM) facility in the Melbourne region. ESEMs have considerable advantages over conventional instruments in that they allow imaging and analysis to be performed in gaseous or high pressure environments. This enables electron microscopy to be used for the detailed analysis of insulating, wet or out-gassing specimens in their natural ....Victorian Environmental Scanning Electron Microscopy Facility. The aim of this proposal is to establish a state-of-the-art Environmental Scanning Electron Microscope (ESEM) facility in the Melbourne region. ESEMs have considerable advantages over conventional instruments in that they allow imaging and analysis to be performed in gaseous or high pressure environments. This enables electron microscopy to be used for the detailed analysis of insulating, wet or out-gassing specimens in their natural state as well as the investigation, in real time, of dynamical processes such as crystallisation and corrosion. The new facility will support a wide range of multi-disciplinary research programs from four Universities and three CSIRO divisions.Read moreRead less
Environmentally responsive clean coatings. Nature makes use of a range of fascinating surface properties, such as the leaves of the Lotus plant which stay clean even in dirty environments. In this project we will explore the molecular properties of novel polymer coated surfaces that-similar to some natural surfaces-can adapt to changing environmental stimuli and be resistant to contamination. Specifically, we aim to develop self-cleaning polymer coatings which can reversibly switch from wettab ....Environmentally responsive clean coatings. Nature makes use of a range of fascinating surface properties, such as the leaves of the Lotus plant which stay clean even in dirty environments. In this project we will explore the molecular properties of novel polymer coated surfaces that-similar to some natural surfaces-can adapt to changing environmental stimuli and be resistant to contamination. Specifically, we aim to develop self-cleaning polymer coatings which can reversibly switch from wettable to non-wettable with changing temperature and humidity. These self-cleaning polymer surfaces with environmentally responsive properties will add value to pre-painted steel products and other coatings.Read moreRead less
Heat capacities of Bayer liquors to 300C. Alumina refining is one of Australia's most important industries, earning ~$6 billion per year export income. However, major productivity gains are required for Australian producers to remain globally competitive. More accurate thermodynamic calculations, covering the full plant operating range, are seen by the industry as an important way to increase productivity, minimise energy consumption and cut greenhouse emissions. To achieve these aims, we must e ....Heat capacities of Bayer liquors to 300C. Alumina refining is one of Australia's most important industries, earning ~$6 billion per year export income. However, major productivity gains are required for Australian producers to remain globally competitive. More accurate thermodynamic calculations, covering the full plant operating range, are seen by the industry as an important way to increase productivity, minimise energy consumption and cut greenhouse emissions. To achieve these aims, we must extend current theoretical understanding and establish an experimental capability, hitherto unavailable in Australia, for measuring heat capacities and densities of solutions to temperatures as high as 300 C.Read moreRead less
Sonochemical synthesis of nanoparticles for fuel cell applications. The sonochemical synthesis of metal and semiconductor nanoparticles is one of several developing applications of ultrasound. Ultrasonically produced nanoparticles possess a number of specific properties, such as, pronounced catalytic activity. This project aims to ultrasonically synthesize metal nanoparticles and evaluate their suitability for fuel cell applications. The University of Melbourne and the Indiana University Nor ....Sonochemical synthesis of nanoparticles for fuel cell applications. The sonochemical synthesis of metal and semiconductor nanoparticles is one of several developing applications of ultrasound. Ultrasonically produced nanoparticles possess a number of specific properties, such as, pronounced catalytic activity. This project aims to ultrasonically synthesize metal nanoparticles and evaluate their suitability for fuel cell applications. The University of Melbourne and the Indiana University North-West research groups have a strong background and experience in the proposed research field. The outcome of this investigation will provide the basis for gaining other funding (e.g., ARC-NSF), which will establish a more extensive longer term collaboration between the universities.Read moreRead less
Ultrasonics as a New Platform Technology in Dairy Processing. We intend to develop the use of ultrasound as an innovative platform technology within the Australian dairy industry. The outcomes will place the industry in a lead position internationally through the development of a range of novel, patentable, heat stable dairy ingredients that can command a premium price in a global market. This project will also lead to increased energy efficiency, reduced carbon footprints and increased profitab ....Ultrasonics as a New Platform Technology in Dairy Processing. We intend to develop the use of ultrasound as an innovative platform technology within the Australian dairy industry. The outcomes will place the industry in a lead position internationally through the development of a range of novel, patentable, heat stable dairy ingredients that can command a premium price in a global market. This project will also lead to increased energy efficiency, reduced carbon footprints and increased profitability for Australian dairy manufacturing through improved productivity of membrane operations, evaporators and spray driers. In turn, this work will help to secure the future of the wider Australian dairy industry and the rural townships that depend upon this industry.Read moreRead less
Protein self-assembly on surfaces, interfaces and nanoparticles. Surfaces such as those presented by an air-liquid interface or air-borne nanoparticles exert significant effects on protein aggregation in biological environments. We will develop a comprehensive theoretical and experimental approach to study the effects of such surfaces on the self assembly of proteins leading to disease causing amyloid fibrils. This will provide a molecular level understanding of protein self-association and a ....Protein self-assembly on surfaces, interfaces and nanoparticles. Surfaces such as those presented by an air-liquid interface or air-borne nanoparticles exert significant effects on protein aggregation in biological environments. We will develop a comprehensive theoretical and experimental approach to study the effects of such surfaces on the self assembly of proteins leading to disease causing amyloid fibrils. This will provide a molecular level understanding of protein self-association and a rational basis for the design of inhibitors to stop protein aggregation. The work will also establish design principles for new nanomaterials via the controlled self assembly of proteins on surfaces.Read moreRead less
Biocompatible Ionic Liquids - Preserving Bioactive Structure and Function. A family of liquids recently discovered at Monash University has an ability to preserve bioactive molecules that represents a breakthrough in biotechnology. These new biocompatible ionic liquids will be investigated for applications in the treatment of diseases such as haemophilia. The ability of these liquids to stabilise a wide range of enzymes also opens up the potential of their use in a range of biosensors such as b ....Biocompatible Ionic Liquids - Preserving Bioactive Structure and Function. A family of liquids recently discovered at Monash University has an ability to preserve bioactive molecules that represents a breakthrough in biotechnology. These new biocompatible ionic liquids will be investigated for applications in the treatment of diseases such as haemophilia. The ability of these liquids to stabilise a wide range of enzymes also opens up the potential of their use in a range of biosensors such as blood glucose monitors for diabetes management. In collaborations with research groups worldwide, these materials will also be applied to the preservation of bioactivity in applications including cryopreservation of endangered species such as coral and in medical therapeutics. Read moreRead less