Early-Stage Medical Diagnostics by Plasmon-Mediated Gas Sensing. This project will investigate the use plasmonic absorption of light in metal nanostructures to activate the selective oxidation/reduction of a gas molecule on a semiconductor nanoparticle. This concept will be used with the aim of developing a sensing technique capable of measuring ultra-low concentrations (ppb) of breath markers for lung cancer detection. It is expected that porous sensing films of semiconductor and metal nanopart ....Early-Stage Medical Diagnostics by Plasmon-Mediated Gas Sensing. This project will investigate the use plasmonic absorption of light in metal nanostructures to activate the selective oxidation/reduction of a gas molecule on a semiconductor nanoparticle. This concept will be used with the aim of developing a sensing technique capable of measuring ultra-low concentrations (ppb) of breath markers for lung cancer detection. It is expected that porous sensing films of semiconductor and metal nanoparticles with well-defined light absorption properties will be fabricated. Superior selectivity will be achieved by matching the wavelength of the absorbed light with the required activation energy for oxidation/reduction. Successful outcomes will enable multi-analyte fingerprint identification by on-chip devices with applications ranging from portable medical diagnostics to national security.Read moreRead less
Brighter than a synchrotron mid-infrared sources for spectroscopy & sensing. This project intends to develop mid-infrared spectroscopy as a powerful diagnostic tool. Mid-infrared spectroscopy allows a light beam to determine the chemical composition of objects or gaseous samples. It has wide applicability — in fields such as medicine, agriculture, the environment, national security and industrial process control — but its use has been hampered by the lack of bright, low-cost sources and integrat ....Brighter than a synchrotron mid-infrared sources for spectroscopy & sensing. This project intends to develop mid-infrared spectroscopy as a powerful diagnostic tool. Mid-infrared spectroscopy allows a light beam to determine the chemical composition of objects or gaseous samples. It has wide applicability — in fields such as medicine, agriculture, the environment, national security and industrial process control — but its use has been hampered by the lack of bright, low-cost sources and integrated devices. This project aims to implement new Australian-made sources that exceed the brightness of even synchrotrons at modest prices. It also aims to demonstrate a single chip integrated version of such a source as the first step towards deployment of mid-infrared technology.Read moreRead less