Creation of functional surfaces for biodevices and aerospace applications. Polymers are poised to become the materials of choice for a host of applications because of their lightness, strength, ease of forming and biocompatibility. The major challenge lies in optimising their surfaces for each application. For biodevices in particular, the surfaces must support a range of complex and specific interactions. This project will create new polymer surface modifications through innovations in plasma s ....Creation of functional surfaces for biodevices and aerospace applications. Polymers are poised to become the materials of choice for a host of applications because of their lightness, strength, ease of forming and biocompatibility. The major challenge lies in optimising their surfaces for each application. For biodevices in particular, the surfaces must support a range of complex and specific interactions. This project will create new polymer surface modifications through innovations in plasma science and technology. The outcomes will be new surfaces for diagnostic arrays in medicine, biosensors and durable polymer surfaces for low earth orbit.Read moreRead less
Biomolecular films on silicon substrates. Construction of hybrid carbon-silicon devices in which molecular organic molecular films are covalently linked to silicon wafers. Biomolecular nanostructures on silicon wafers can be studied using unique impedance spectroscopy instrumentation that we have developed as well as X-ray and neutron reflectometry. The system will be used to study a variety of molecular films as well as molecularly tethered lipid bilayer membranes that mimic aspects of cell mem ....Biomolecular films on silicon substrates. Construction of hybrid carbon-silicon devices in which molecular organic molecular films are covalently linked to silicon wafers. Biomolecular nanostructures on silicon wafers can be studied using unique impedance spectroscopy instrumentation that we have developed as well as X-ray and neutron reflectometry. The system will be used to study a variety of molecular films as well as molecularly tethered lipid bilayer membranes that mimic aspects of cell membranes and these will be used to investigate the effect of sterols on such membranes.Read moreRead less
Computational Reconstruction of Cardiac Pacemaker Activation and Atrial Propagation. This study seeks to develop accurate computer models of electrical activity in pacemaker and atrial cells of the heart, in order to understand how the heartbeat originates and propagates across the atria during normal and abnormal rhythms. In Australia, atrial fibrillation represents the most common form of chronic cardiac arrhythmia encountered in clinical practice, as well as being a major risk factor in strok ....Computational Reconstruction of Cardiac Pacemaker Activation and Atrial Propagation. This study seeks to develop accurate computer models of electrical activity in pacemaker and atrial cells of the heart, in order to understand how the heartbeat originates and propagates across the atria during normal and abnormal rhythms. In Australia, atrial fibrillation represents the most common form of chronic cardiac arrhythmia encountered in clinical practice, as well as being a major risk factor in stroke. Accurate computer modelling of normal and abnormal heart rhythms will provide greater insights into the development of antiarrythmic drugs as well as advancing knowledge of key electrical phenomena in the heart.Read moreRead less