Development of high-performance lead-free piezoelectric superlattices for environmentally-friendly and biocompatible piezoelectric micromachined ultrasonic transducers (pMUTs) applications. This program is aimed at development of environmentally friendly and biocompatible lead-free piezoelectric thin films and superlattices for the potential applications in pMUTs. The expected outcome includes deposition of BNT and BZT-based thin films and superlattices, and enhancement of their physical propert ....Development of high-performance lead-free piezoelectric superlattices for environmentally-friendly and biocompatible piezoelectric micromachined ultrasonic transducers (pMUTs) applications. This program is aimed at development of environmentally friendly and biocompatible lead-free piezoelectric thin films and superlattices for the potential applications in pMUTs. The expected outcome includes deposition of BNT and BZT-based thin films and superlattices, and enhancement of their physical properties by strain and interface engineering.Read moreRead less
Development of high efficiency nanocatalysts using novel electron beam fabrication and imaging techniques. This project will develop a new approach for fabricating and studying nanocatalysts based on our expertise in electron beam induced deposition (EBID) of nanostructured materials and environmental scanning electron microscopy (ESEM). ESEM will be used to conduct unique, time-resolved studies of nano-scale, catalysed chemical reactions at elevated temperatures and pressures. The project will ....Development of high efficiency nanocatalysts using novel electron beam fabrication and imaging techniques. This project will develop a new approach for fabricating and studying nanocatalysts based on our expertise in electron beam induced deposition (EBID) of nanostructured materials and environmental scanning electron microscopy (ESEM). ESEM will be used to conduct unique, time-resolved studies of nano-scale, catalysed chemical reactions at elevated temperatures and pressures. The project will advance fundamental understanding and applicability of EBID, ESEM and nanocatalysis. It will yield novel, highly efficient, industrially relevant nanocatalysts for the production of renewable (green) and low emission (clean) energy, with particular applications in hydrogen fuel cells and the catalytic oxidation of carbon monoxide.Read moreRead less
Helium recovery from liquefied natural gas waste stream using nanoporous mxene materials. The waste streams from many liquefied natural gas (LNG) industries still contains valuable helium, a possible next mineral to sustain our economic growth. This project aims to efficiently separate helium from methane and nitrogen via the layered two dimensional materials. This project will seek to understand the assembling behaviour of these nano-sized Mxene flakes and their molecular sieving properties. Au ....Helium recovery from liquefied natural gas waste stream using nanoporous mxene materials. The waste streams from many liquefied natural gas (LNG) industries still contains valuable helium, a possible next mineral to sustain our economic growth. This project aims to efficiently separate helium from methane and nitrogen via the layered two dimensional materials. This project will seek to understand the assembling behaviour of these nano-sized Mxene flakes and their molecular sieving properties. Australia is playing a leading role in the global liquefied natural gas (LNG) production and trade. This project expects to further position Australia at the forefront of intellectual leadership in the field of gas processing and material development. This will have significant benefits, such as further improving these LNG projects economics by cost-effectively producing helium as a valuable by-product via advanced porous nano-materials.Read moreRead less
Development of nanostructured sensors for ultra-sensitive, label-free and selective detection of biological and chemical species. Outcomes will significantly advance the technical and fundamental understanding of sensor assembly and provide guidelines for developing and manufacturing nanostructured sensors, which is critical for next generation nanoscale sensing platforms for health care, medical diagnostics and chemical detection and Australia's emerging sensor industries.