Heterotrophically grown microalgae as a feed source for the Australian aquaculture industry. The Australian aquaculture industry has rapidly grown in the past decade producing premium quality, high value species, e.g. tuna and oyster. In the new millennia it is predicted that the Australia aquaculture industry will be the most profitable area within the Australian seafood industry. An integral component for the long-term sustainability of the Australian aquaculture industry is the availability o ....Heterotrophically grown microalgae as a feed source for the Australian aquaculture industry. The Australian aquaculture industry has rapidly grown in the past decade producing premium quality, high value species, e.g. tuna and oyster. In the new millennia it is predicted that the Australia aquaculture industry will be the most profitable area within the Australian seafood industry. An integral component for the long-term sustainability of the Australian aquaculture industry is the availability of top-quality microalgal concentrates, shelf-stable pastes or live feeds, which provide the nutritional requirements of aquatic species in the hatcheries. This project will develop novel microalgal production strategies that would add value to the Australian aquaculture industry.Read moreRead less
Manipulation of Biological Particles Using Dielectrophoresis. Dielectrophoretic manipulation and separation of particles has numerous biological and medical applications, e.g. identification and characterisation of individual cells, purification of cell subpopulations from mixture suspensions, etc. This research project aims to develop a high-efficiency and low-cost DEP device for bio-particle manipulation. It will contribute significantly to the advancements in the field of biological Micro-Ele ....Manipulation of Biological Particles Using Dielectrophoresis. Dielectrophoretic manipulation and separation of particles has numerous biological and medical applications, e.g. identification and characterisation of individual cells, purification of cell subpopulations from mixture suspensions, etc. This research project aims to develop a high-efficiency and low-cost DEP device for bio-particle manipulation. It will contribute significantly to the advancements in the field of biological Micro-Electrical-Mechanical-Systems (MEMS) and nanotechnology. Industry will benefit from the expertise on micro/nano-structures and micro/nano-manufacturing achieved by this project.Read moreRead less
Renewable energy from carbon dioxide: Process engineering to obtain bio-oil from algae. The Stern Report (2007)[1] has called for a CO2 REDUCTION BY MORE THAN 80% in 10-20 years to prevent profound changes in the climate over coming centuries. The proposed project will capture CO2 using algae then off-set the capital investment and on-going expenses of the CO2 capture technology by creating high value products from algae (i.e. bio-diesel, livestock feed and purified water). This process aims to ....Renewable energy from carbon dioxide: Process engineering to obtain bio-oil from algae. The Stern Report (2007)[1] has called for a CO2 REDUCTION BY MORE THAN 80% in 10-20 years to prevent profound changes in the climate over coming centuries. The proposed project will capture CO2 using algae then off-set the capital investment and on-going expenses of the CO2 capture technology by creating high value products from algae (i.e. bio-diesel, livestock feed and purified water). This process aims to be independently profitable regarless of future carbon taxes or carbon trading systems. This project also investigates water purification methods and new livestock feed additives which can help reduce the effects of drought on food producers in rural and regional areas. Read moreRead less
Transport phenomena in foam fractionation. Foam fractionation has a number of immediate applications in mineral and food processing but its most exciting potential is as low cost alternative for recovering and purifying high value biosurfactants. These are materials used to stabilise interfaces in living systems, and can be used as antibiotics and antiviral agents. The affinity for biosurfactants to collect at an interface suggests that foam fractionation is an ideal process to concentrate valua ....Transport phenomena in foam fractionation. Foam fractionation has a number of immediate applications in mineral and food processing but its most exciting potential is as low cost alternative for recovering and purifying high value biosurfactants. These are materials used to stabilise interfaces in living systems, and can be used as antibiotics and antiviral agents. The affinity for biosurfactants to collect at an interface suggests that foam fractionation is an ideal process to concentrate valuable products. Clearly, a cost-effective and reliable method of enriching streams of biosurfactants will make their use even more attractive and will engender the development of more novel biomaterials, such as pepfactants.Read moreRead less
Microfluidic device for microbial separation and concentration. This project will enhance Australia's capabilities and presence in the rapidly expanding field of chemical and biological analysis systems on a chip. We will develop and build handheld devices for microbial concentration that will facilitate earlier and easier detection of potentially pathogenic organisms in critical situations such as epidemiological crises or forensics. The portability and ease of operation of our integrated micro ....Microfluidic device for microbial separation and concentration. This project will enhance Australia's capabilities and presence in the rapidly expanding field of chemical and biological analysis systems on a chip. We will develop and build handheld devices for microbial concentration that will facilitate earlier and easier detection of potentially pathogenic organisms in critical situations such as epidemiological crises or forensics. The portability and ease of operation of our integrated microfluidic devices and their increased resilience to blockages make them ideal for use in remote areas and non-laboratory settings. Application areas will include disease detection, microbial contamination in food industries and water quality monitoring.Read moreRead less
Developing a competitive H2 production suystem based on engineered cells of green algae. The depletion of oil reserves and the effects of global warming make the development of new, clean, sustainable fuel production systems critically important. This frontier technology has the ability to drive solar-powered hydrogen production from water. Extending the system to marine algal cells provides the possibility of coupling clean fuel production with water purification as the product of H2 combustion ....Developing a competitive H2 production suystem based on engineered cells of green algae. The depletion of oil reserves and the effects of global warming make the development of new, clean, sustainable fuel production systems critically important. This frontier technology has the ability to drive solar-powered hydrogen production from water. Extending the system to marine algal cells provides the possibility of coupling clean fuel production with water purification as the product of H2 combustion is pure water. We have already engineered green algae that produce H2 from H2O at a rate ~1000% higher than the Wild-type and through this project will incorporate further improvements with the aim of developing a competitive H2 production system.Read moreRead less
Rapid CYBERNOSE ® detection of illicit drugs and precursor chemicals. Rapid CYBERNOSE ® detection of illicit drugs and precursor chemicals. This project aims to develop a novel biosensor prototype based on CYBERNOSE® technology to rapidly identify volatile traces of illicit drugs and precursor chemicals in concealed environments. The CYBERNOSE® technology employs sensors using the highly sophisticated and sensitive olfactory receptors of microscopic nematode worms linked to an optoelectronic det ....Rapid CYBERNOSE ® detection of illicit drugs and precursor chemicals. Rapid CYBERNOSE ® detection of illicit drugs and precursor chemicals. This project aims to develop a novel biosensor prototype based on CYBERNOSE® technology to rapidly identify volatile traces of illicit drugs and precursor chemicals in concealed environments. The CYBERNOSE® technology employs sensors using the highly sophisticated and sensitive olfactory receptors of microscopic nematode worms linked to an optoelectronic detector. The need for rapid, non-contact screening devices to detect and identify illicit drugs and precursors entering Australia has never been greater. Law enforcement agencies should directly benefit from the capability to more rapidly screen people and cargo, improving efficiency of illicit drug detection and protection of our borders.Read moreRead less
Applications of probiotics in yoghurt, soy yoghurt and Cheddar cheese. The main goal of this study is to develop probiotic yoghurt and Cheddar cheese using selected strains of probiotic bacteria and examine their survival and effects on proteolysis and sensory attributes of these products. Research aimed at enrichment of suitable probiotic adjunct starter in these products provides the potential to markedly improve both the health status and quality of products. Optimum conditions for survival o ....Applications of probiotics in yoghurt, soy yoghurt and Cheddar cheese. The main goal of this study is to develop probiotic yoghurt and Cheddar cheese using selected strains of probiotic bacteria and examine their survival and effects on proteolysis and sensory attributes of these products. Research aimed at enrichment of suitable probiotic adjunct starter in these products provides the potential to markedly improve both the health status and quality of products. Optimum conditions for survival of probiotic bacteria and processing conditions that guarantee high levels of probiotic bacteria for health benefits will be known. The results will provide critical information for improving survival of probiotic bacteria and quality of probiotic yoghurt, and Cheddar cheese.Read moreRead less
Stability of bioactive isoflavone aglycones and probiotic bacteria in soy based food during processing and storage. The aims of this study are to ascertain the optimum conditions for bioconversion of inactive isoflavone glucosides to bioactive isoflavone aglycones by bifidobacteria and assess the stability of bioactive aglycones during processing and storage. Studies have shown that dietary phytoestrogen an important role in prevention of cardiovascular disease, osteoporosis and breast and prost ....Stability of bioactive isoflavone aglycones and probiotic bacteria in soy based food during processing and storage. The aims of this study are to ascertain the optimum conditions for bioconversion of inactive isoflavone glucosides to bioactive isoflavone aglycones by bifidobacteria and assess the stability of bioactive aglycones during processing and storage. Studies have shown that dietary phytoestrogen an important role in prevention of cardiovascular disease, osteoporosis and breast and prostate cancer (Nagata et al., 1998). Optimum conditions for production of bioactive isoflavones and processing conditions that guarantee high levels of bioactive isoflavones for health benefits will be known. The results will provide critical information for creating market potential for a range of health based functional foods.Read moreRead less
Underlying mechanisms of e-waste bioleaching and hydropyrolysis. The project will develop a reclamation technology with an ecologically sustainable solution to e-waste management. Focusing on printed circuit boards, we will use our novel bioleaching and hydropyrolysis methods to process e-wastes, recover base and precious metals and reclaim energy. This will create safe working methods, high recycling efficiencies and generation of products from e-wastes.