The characterization and pocessing of Australian grown hemp fibres. This project will, for the first time, systematically examine the characteristics and processing behaviour of Australian grown hemp fibres. The hemp industry is an emerging new industry in rural Australia. This research will tackle a number of complex problems concerning characterization, degumming, and processing of Australian grown hemp, and will engineer the finest and softest yarns as well as industrial products from this he ....The characterization and pocessing of Australian grown hemp fibres. This project will, for the first time, systematically examine the characteristics and processing behaviour of Australian grown hemp fibres. The hemp industry is an emerging new industry in rural Australia. This research will tackle a number of complex problems concerning characterization, degumming, and processing of Australian grown hemp, and will engineer the finest and softest yarns as well as industrial products from this hemp. This will position the local hemp industry as well fibre processing industry in a very strong position to meet the growing demand world wide on this "green" fibre.Read moreRead less
Radio Frequency Wireless Monitoring in Sleep Apnoea (Particularly for Paediatric Patients). Disease diagnosis, chronic disease monitoring and stress monitoring all are limited by diagnostic systems that are attached to patients by wires restricting the recording of such parameters to limited intervals in the clinician's office. The proposed system will enable patients to have a range of physiological parameters recorded without the attachment of wires. This will enable extensive periods of dia ....Radio Frequency Wireless Monitoring in Sleep Apnoea (Particularly for Paediatric Patients). Disease diagnosis, chronic disease monitoring and stress monitoring all are limited by diagnostic systems that are attached to patients by wires restricting the recording of such parameters to limited intervals in the clinician's office. The proposed system will enable patients to have a range of physiological parameters recorded without the attachment of wires. This will enable extensive periods of diagnostic data to be recorded to characterize respiratory, cardiac and other parameters during extended periods, and during normal daily activity. In addition the system can be used to monitor patients with chronic disease and detect trends in their disease.Read moreRead less
Formation and characterisation of continuous electrospun nanofibre yarns. Australia historically has a strong fibre and textile industry that can be augmented by embracing emerging nanotechnology. The proposed research will develop a technology that can greatly improve the productivity of nanofibres. These fibres can then be spun into continuous yarns and other form of textile products. The nanostructured products offer exceptional functions for biomedical and environmental applications. This ne ....Formation and characterisation of continuous electrospun nanofibre yarns. Australia historically has a strong fibre and textile industry that can be augmented by embracing emerging nanotechnology. The proposed research will develop a technology that can greatly improve the productivity of nanofibres. These fibres can then be spun into continuous yarns and other form of textile products. The nanostructured products offer exceptional functions for biomedical and environmental applications. This new technology has the potential to transform the Australian textile technology and fibre processing industry. Read moreRead less
Scouring and Dehairing Australian Cashmere Fibres. The project aims to develop a viable method of dehairing greasy Australian cashmere materials. Traditionally, cashmere materials are scoured or washed first, followed by dehairing to extract the useful fine cashmere fibres. This is expensive and water consumption for scouring is also high. The current project will overcome the difficulties in dehairing greasy cashmere and optimise the process of scouring dehaired cashmere fibres. Technology deve ....Scouring and Dehairing Australian Cashmere Fibres. The project aims to develop a viable method of dehairing greasy Australian cashmere materials. Traditionally, cashmere materials are scoured or washed first, followed by dehairing to extract the useful fine cashmere fibres. This is expensive and water consumption for scouring is also high. The current project will overcome the difficulties in dehairing greasy cashmere and optimise the process of scouring dehaired cashmere fibres. Technology developed in this project will reduce scouring cost and water consumption, improve dehairing yield, and increase the flexibility of cashmere scouring and processing, leading to a more sustainable Australian cashmere industry.Read moreRead less
New Membrane Chips For Protein Interaction Analysis. This proposal is based on a strategic partnership between Monash University and Farfield Sensors. We will create a series of new biosensors that will be used to establish a new approach to the structural analysis of membrane protein function. In particular, this technology may lead to the identification of new proteins and drug targets for therapeutic development. The long-term outcome would be the development of improved therapeutics which wo ....New Membrane Chips For Protein Interaction Analysis. This proposal is based on a strategic partnership between Monash University and Farfield Sensors. We will create a series of new biosensors that will be used to establish a new approach to the structural analysis of membrane protein function. In particular, this technology may lead to the identification of new proteins and drug targets for therapeutic development. The long-term outcome would be the development of improved therapeutics which would be coupled to potential economic returns when further commercialisation is achieved. Read moreRead less
Characterisation and improvement of radiation beams used for radiotherapy of small lesions. This project aims to characterise the radiation dose from a medical linear accelerator after the beam has been shaped by a mini-multileaf collimator. The characterisation will be achieved through a combination of computer simulations and experimental investigation of the beam using the technique of three-dimensional gel dosimetry. When the dosage characteristics are known, techniques will be developed to ....Characterisation and improvement of radiation beams used for radiotherapy of small lesions. This project aims to characterise the radiation dose from a medical linear accelerator after the beam has been shaped by a mini-multileaf collimator. The characterisation will be achieved through a combination of computer simulations and experimental investigation of the beam using the technique of three-dimensional gel dosimetry. When the dosage characteristics are known, techniques will be developed to improve radiotherapy treatments in patients with small lesions with sizes of up to a few centimetres. This will lead to an improved outcome for some cancer patients.Read moreRead less
Antiviral compounds to inhibit the replicase of hepatitis C virus. Hepatitis C virus is a major public health problem. There are currently 200,000 infected individuals in Australia and 16,000 new infections every year. There is no specific treatment and current therapy treats a small percentage of patients only, which consists of interferon-alpha and ribavirin. This results in side effects and only a 50% cure rate. This study's outcomes are expected to lead to greater access to treatment and imp ....Antiviral compounds to inhibit the replicase of hepatitis C virus. Hepatitis C virus is a major public health problem. There are currently 200,000 infected individuals in Australia and 16,000 new infections every year. There is no specific treatment and current therapy treats a small percentage of patients only, which consists of interferon-alpha and ribavirin. This results in side effects and only a 50% cure rate. This study's outcomes are expected to lead to greater access to treatment and improved therapy resulting in higher cure rates and in a dramatic reduction in the cost of treating patients. A novel therapy will provide considerable benefits for the national biotechnology industry.Read moreRead less
Value Adding to Australian Cashmere Fleece. This project will lead to major technical advance in the processing of both cashmere fibres and cashmere guard hair. Reducing the level of breakage in fine cashmere fibres will add significant premium to the price of cashmere fibres and products. In addition, the large amount of coarse guard hair removed from cashmere dehairing process will be converted into quality fine powders, which will add significant value to an otherwise 'waste' product. This pr ....Value Adding to Australian Cashmere Fleece. This project will lead to major technical advance in the processing of both cashmere fibres and cashmere guard hair. Reducing the level of breakage in fine cashmere fibres will add significant premium to the price of cashmere fibres and products. In addition, the large amount of coarse guard hair removed from cashmere dehairing process will be converted into quality fine powders, which will add significant value to an otherwise 'waste' product. This project will benefit the entire animal fibre industry, particularly the rare animal fibre industry.Read moreRead less
Three-Dimensional Polymer Fibre Scaffolds with Functional Nano-structured Surface. The Partner Organisation to this research, CyGenics Ltd, is a world leader in cell biotechnology. A key challenge faced by the CyGenics and other biotech companies is the provision of tissue scaffolding materials that have the right three-dimensional macroscopic structure plus a suitable nano-structured surface micro-environment, similar to the natural extracellular matrix. This joint project combines expertise in ....Three-Dimensional Polymer Fibre Scaffolds with Functional Nano-structured Surface. The Partner Organisation to this research, CyGenics Ltd, is a world leader in cell biotechnology. A key challenge faced by the CyGenics and other biotech companies is the provision of tissue scaffolding materials that have the right three-dimensional macroscopic structure plus a suitable nano-structured surface micro-environment, similar to the natural extracellular matrix. This joint project combines expertise in polymer fibres, surface engineering and cell culture to tackle the key challenge. The outcome will help position the local polymer fibre and cell culture industries at the forefront of tissue scaffolding materials research and development. Read moreRead less
Accurate calibration and interpretation of airborne electromagnetic data. There is increasing interest in using airborne electromagnetic (AEM) data to explore structural features hidden beneath the earth's surface. At present, 2D images of these features can be built up using approximate 1D models that predict electrical conductivity. This research will develop 2D models that allow accurate imaging of 3D structures. Applications include mineral and diamond exploration, the mapping of leakage fro ....Accurate calibration and interpretation of airborne electromagnetic data. There is increasing interest in using airborne electromagnetic (AEM) data to explore structural features hidden beneath the earth's surface. At present, 2D images of these features can be built up using approximate 1D models that predict electrical conductivity. This research will develop 2D models that allow accurate imaging of 3D structures. Applications include mineral and diamond exploration, the mapping of leakage from tailings dams, and more precise mapping of dryland salinity. The project also aims to develop a method to calibrate AEM systems, leading to more accurate environmental mapping and significant long-term economic benefits.Read moreRead less