A gold-coated magnetic nanoparticle biosensor for detecting microRNA. The project aims to develop a biosensor for detecting short sequences of RNA, called microRNA (miRNA) in blood. There are about 100 miRNA sequences that are involved in most biological processes. Changes in the levels of some miRNA sequences can serve as a biomarker for many diseases including cancers. The miRNA will be detected using gold-coated magnetic nanoparticles modified with DNA sequences complementary to the miRNA of ....A gold-coated magnetic nanoparticle biosensor for detecting microRNA. The project aims to develop a biosensor for detecting short sequences of RNA, called microRNA (miRNA) in blood. There are about 100 miRNA sequences that are involved in most biological processes. Changes in the levels of some miRNA sequences can serve as a biomarker for many diseases including cancers. The miRNA will be detected using gold-coated magnetic nanoparticles modified with DNA sequences complementary to the miRNA of interest to capture the miRNA. Application of a magnetic field allows the levels of miRNA to be detected electrochemically. The expected outcome is a commercialisable biosensor for miRNA both as a diagnostic early detection device and a prognostic device for a range of miRNA biomarkers.Read moreRead less
Fabrication and Application of Ion-Sensors Based on the Voltammetry of Nanocrystals Adhered to Electrode Surfaces. A significant need exists for the low cost determination of cations and anions in biologically (blood, urine), industrially (process streams) and environmentally (rivers, lakes) important fluids. In this project, skills in sensor design, scientific instrumentation, materials science, electrochemistry and analytical science provided by a consortium of scientists at Monash University ....Fabrication and Application of Ion-Sensors Based on the Voltammetry of Nanocrystals Adhered to Electrode Surfaces. A significant need exists for the low cost determination of cations and anions in biologically (blood, urine), industrially (process streams) and environmentally (rivers, lakes) important fluids. In this project, skills in sensor design, scientific instrumentation, materials science, electrochemistry and analytical science provided by a consortium of scientists at Monash University, the Victorian Institute for Chemical Sciences, Oxford Biosensors and Oxford University will be integrated to fabricate and develop applications of commercially viable ion-sensing systems. The principles to be utilised are based on novel forms of voltammetry of nanocrystals adhered to electrode surfaces.Read moreRead less
New strategies for characterising and monitoring protein-surface interactions: application to a biosensor for diabetic’s blood glucose regime effectiveness. This project aims to develop an antibody based biosensor for the detection of glycosylated haemoglobin (HbA1c) which serves as a marker of the effectiveness of a diabetic’s blood glucose treatment regime. Monitoring HbA1c is important as many of the long term health effects of diabetes are a consequence of high blood glucose levels. The si ....New strategies for characterising and monitoring protein-surface interactions: application to a biosensor for diabetic’s blood glucose regime effectiveness. This project aims to develop an antibody based biosensor for the detection of glycosylated haemoglobin (HbA1c) which serves as a marker of the effectiveness of a diabetic’s blood glucose treatment regime. Monitoring HbA1c is important as many of the long term health effects of diabetes are a consequence of high blood glucose levels. The simple to use technology will be a general detection strategy for proteins and hence will be applicable for the detection of a wide range of diseases and biomarkers. The research will also benefit Australia by training the new generation of scientists for Australia's biomedical diagnostics industry.Read moreRead less
A multi-metal ion sensor for analysis of environmental water. The aim of this research project is to develop an electrochemical sensor array on a single chip for the detection of several heavy metals in wastewater samples. Each electrode in the array will be modified with a different metal-binding peptide ligand; resulting in a characteristic response pattern for a given metal ion. Deconvolution of the sensor response into the response patterns of the individual metals will be achieved using p ....A multi-metal ion sensor for analysis of environmental water. The aim of this research project is to develop an electrochemical sensor array on a single chip for the detection of several heavy metals in wastewater samples. Each electrode in the array will be modified with a different metal-binding peptide ligand; resulting in a characteristic response pattern for a given metal ion. Deconvolution of the sensor response into the response patterns of the individual metals will be achieved using pattern recognition software employing artificial neural networks and other multivariate techniques. Successful development of the multi-analyte sensor will allow the rapid monitoring of environmentally important metal ions in the field.Read moreRead less
Multi-Colour Electrogenerated Chemiluminescence. This project plans to explore a new approach to chemical detection, in which molecules that emit different coloured light can be selectively switched on or switched off via the applied electrode potential. This would enable unprecedented numbers of simultaneous (multiplexed) detection events for time-critical analytical applications such as clinical diagnostics, environmental monitoring and biodefense assays. These assays could be performed on low ....Multi-Colour Electrogenerated Chemiluminescence. This project plans to explore a new approach to chemical detection, in which molecules that emit different coloured light can be selectively switched on or switched off via the applied electrode potential. This would enable unprecedented numbers of simultaneous (multiplexed) detection events for time-critical analytical applications such as clinical diagnostics, environmental monitoring and biodefense assays. These assays could be performed on low-cost microfluidic platforms operated by portable consumer devices such as mobile phones. Expected outcomes may provide new capabilities in rapid screening for disease biomarkers, environmental pollutants and bioterrorism agents, using simple, low-cost, portable instrumentation.Read moreRead less
New Strategies for Monitoring DNA-Anticancer Drug Interactions. The highly successful cisplatin works by binding to DNA and partially unwinding or bending the DNA. As a consequence of the success if cisplatin, alternative anticancer drugs are being developed with reduced side effects for patients. One of the bottom necks in the development of alternative drugs is rapid screening of the efficacy on new leads. The proposed research will develop new technologies for monitoring DNA-drug binding, ....New Strategies for Monitoring DNA-Anticancer Drug Interactions. The highly successful cisplatin works by binding to DNA and partially unwinding or bending the DNA. As a consequence of the success if cisplatin, alternative anticancer drugs are being developed with reduced side effects for patients. One of the bottom necks in the development of alternative drugs is rapid screening of the efficacy on new leads. The proposed research will develop new technologies for monitoring DNA-drug binding, DNA damage and DNA repair using novel DNA biosensors. the novelty of the biosensor technology will be to use the modulation of charge transfer through DNA as a method for determining the structural changes that occur in DNA due to these events occurring.Read moreRead less
Three Dimensional Anti-biofouling Conducting Polymer Hydrogel Electrodes for Biosensor and Biofuel cell Applications. Exploitation of advances in nanotechnology, electrochemical technology, biosensor, biofuel cell and material science are important to Australia's prosperity from a societal industrial perspective. Currently, research in this field is being actively conducted around the world due to their huge potential for commercial applications. Therefore, through the development of new princi ....Three Dimensional Anti-biofouling Conducting Polymer Hydrogel Electrodes for Biosensor and Biofuel cell Applications. Exploitation of advances in nanotechnology, electrochemical technology, biosensor, biofuel cell and material science are important to Australia's prosperity from a societal industrial perspective. Currently, research in this field is being actively conducted around the world due to their huge potential for commercial applications. Therefore, through the development of new principles and concepts, and the synthesis of newly designed materials, this project will bring significant benefits in improving the efficiency of these devices and to promote Australian leadership in the field of medical devices and alternative energy generation.Read moreRead less
Development of redox-mediated microbial assays for the rapid characterisation and assessment of wastewater, wastewater treatment processes and recycled water. With SE Qld on Level 5 water restrictions the need to reduce our demand on drinking water by increasing our reliance on recycled water is now urgent. To achieve this we need to ensure that the quality of our recycled wastewater is of a suitable and reliable standard. This project will assist the water industry in this endeavour by the de ....Development of redox-mediated microbial assays for the rapid characterisation and assessment of wastewater, wastewater treatment processes and recycled water. With SE Qld on Level 5 water restrictions the need to reduce our demand on drinking water by increasing our reliance on recycled water is now urgent. To achieve this we need to ensure that the quality of our recycled wastewater is of a suitable and reliable standard. This project will assist the water industry in this endeavour by the developing monitoring techniques that can rapidly characterise and assess the effectiveness of wastewater treatment processes and the quality of the water derived from them. These methods will provide early warnings of potential 'upsets' in treatment plants that would otherwise result in poor quality effluents that would need to be discharged as waste rather than be recycled.Read moreRead less
Calibration Free Coulometric Sensors Based on Polymeric Thin Layer Films. The world faces enormous environmental and clinical challenges that require accurate data from remote deployable and disposable sensors. Many key parameters important to global warming (carbon dioxide cycle) and clinical diagnostics (blood electrolytes) may be assessed with a polymeric membrane sensing technology, but the measurement principle is not sufficiently robust for remote sensing applications. This research will m ....Calibration Free Coulometric Sensors Based on Polymeric Thin Layer Films. The world faces enormous environmental and clinical challenges that require accurate data from remote deployable and disposable sensors. Many key parameters important to global warming (carbon dioxide cycle) and clinical diagnostics (blood electrolytes) may be assessed with a polymeric membrane sensing technology, but the measurement principle is not sufficiently robust for remote sensing applications. This research will make this possible by adapting calibration free measurement principles (coulometry, or charge counting) to this class of sensors, where a thin layer of sample solution will be depleted by instrumental control. This forms the scientific basis for successfully tackling the measurement challenges of the future.Read moreRead less
Sulphate sensor for reverse osmosis integrity and performance monitoring. Sulphate sensor for reverse osmosis integrity and performance monitoring. This project aims to investigate new chemical sensors for sulphate for online reverse osmosis integrity and performance monitoring at an advanced water recycling plant. Wastewater re-use is increasingly important in Australia and worldwide for providing potable water. Demonstrating the integrity and performance of treatment technologies is needed to ....Sulphate sensor for reverse osmosis integrity and performance monitoring. Sulphate sensor for reverse osmosis integrity and performance monitoring. This project aims to investigate new chemical sensors for sulphate for online reverse osmosis integrity and performance monitoring at an advanced water recycling plant. Wastewater re-use is increasingly important in Australia and worldwide for providing potable water. Demonstrating the integrity and performance of treatment technologies is needed to meet health regulations. Sulphate and other surrogates of biological entities enable a rapid, on-line approach to integrity and performance monitoring, but detection with available analytical chemical technology is not feasible. This research is expected to enable better management of water treatment processes and demonstrate compliance to health standards.Read moreRead less