Development of planar patch-clamp electrophysiology to investigate liposome-based artificial nanosensor devices. This project aims to characterise the interaction of transport proteins with unsupported lipid bilayer membranes. This will provide the basis for a novel biosensor utilising mechanosensitive ion channels incorporated into an artificial lipid bilayer membrane. To support this outcome, the project will develop the planar patch-clamp electrophysiology recording techniques suitable for l ....Development of planar patch-clamp electrophysiology to investigate liposome-based artificial nanosensor devices. This project aims to characterise the interaction of transport proteins with unsupported lipid bilayer membranes. This will provide the basis for a novel biosensor utilising mechanosensitive ion channels incorporated into an artificial lipid bilayer membrane. To support this outcome, the project will develop the planar patch-clamp electrophysiology recording techniques suitable for liposomes. This provides a significant PhD training opportunity and brings an international focus to the development of planar patch-clamp electrophysiology in Australia. The project has significant commercial potential by developing both the planar patch-clamp electrophysiology techniques for liposomes and producing a novel biomimetic mechanosensitive biosensor.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882778
Funder
Australian Research Council
Funding Amount
$201,224.00
Summary
Water vapour radiometers for millimetre-wave phase correction for the Australia Telescope. Australia has a tradition of excellence in astronomy. Inspired by wonder about the cosmos, it stimulates public interest in science, so leading to the training of highly skilled graduates. In turn, this drives the development of technologies needed to pursue the science. The nation has invested in the technology for millimetre-wave astronomy, building the first interferometer in our hemisphere. This equipm ....Water vapour radiometers for millimetre-wave phase correction for the Australia Telescope. Australia has a tradition of excellence in astronomy. Inspired by wonder about the cosmos, it stimulates public interest in science, so leading to the training of highly skilled graduates. In turn, this drives the development of technologies needed to pursue the science. The nation has invested in the technology for millimetre-wave astronomy, building the first interferometer in our hemisphere. This equipment will capitalise on this investment, extending the capabilities of the Australia Telescope to maintain it as a front line instrument, attracting the best scientists here to use it. This will help nurture a vigorous radio-science community, one able to actively participate in the billion-dollar investment being made internationally in the field.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775602
Funder
Australian Research Council
Funding Amount
$100,000.00
Summary
A ground station for the NANTEN2 sub-millimetre wave telescope. Australia has a tradition of excellence in astronomy. Inspired by our natural wonder about the cosmos, it helps stimulate public interest in science, so leading to the training of highly skilled graduates. This in turn drives development of technologies needed to pursue the science. The nation has invested in technology for millimetre-wave astronomy, building the first interferometer in our hemisphere. We aim to capitalise on this i ....A ground station for the NANTEN2 sub-millimetre wave telescope. Australia has a tradition of excellence in astronomy. Inspired by our natural wonder about the cosmos, it helps stimulate public interest in science, so leading to the training of highly skilled graduates. This in turn drives development of technologies needed to pursue the science. The nation has invested in technology for millimetre-wave astronomy, building the first interferometer in our hemisphere. We aim to capitalise on this investment, leveraging it to access a frontline facility under construction on the Atacama plateau in Chile. This will help nurture a vigorous radio-science community, one able to actively participate in the billion-dollar investment being made by the international community in astronomical facilities there.Read moreRead less
Integration of Electrochemistry and Green Chemistry: A Roadmap for Scientific Innovation. Electrochemistry represents an enabling science in physical, chemical and life sciences. It plays a key role in fundamental studies and in Australia's industrial capacity to exploit emerging technologies. Research conducted synergistically within the ARC Centre for Green Chemistry would enable the Monash Electrochemistry Group to develop and exploit new concepts. In the national interest, the Fellowship ....Integration of Electrochemistry and Green Chemistry: A Roadmap for Scientific Innovation. Electrochemistry represents an enabling science in physical, chemical and life sciences. It plays a key role in fundamental studies and in Australia's industrial capacity to exploit emerging technologies. Research conducted synergistically within the ARC Centre for Green Chemistry would enable the Monash Electrochemistry Group to develop and exploit new concepts. In the national interest, the Fellowship would: facilitate global participation in cutting-edge science derived from electrochemical and green chemical concepts; provide commercial opportunities for new and mature chemical industries; expand postgraduate training; and promote technology exchange with Australian and international leading-edge research organisations.Read moreRead less
The birth of massive stars. Australia has an international reputation for the quality of its astronomy. This in turn stimulates public interest in science, and helps drive the development of technologies needed to pursue it. Over the past decade our nation has invested in the technology for millimetre-wave astronomy, building competitive instrumentation and the first interferometer in our hemisphere. We aim to capitalise on this investment, leveraging it to access frontline facilities in Chile b ....The birth of massive stars. Australia has an international reputation for the quality of its astronomy. This in turn stimulates public interest in science, and helps drive the development of technologies needed to pursue it. Over the past decade our nation has invested in the technology for millimetre-wave astronomy, building competitive instrumentation and the first interferometer in our hemisphere. We aim to capitalise on this investment, leveraging it to access frontline facilities in Chile being built by our international partners. In doing so, we will expose our students to the leading-edge and help nurture a vigorous radio science community, one able to actively participate in the billion-dollar international ALMA radio-telescope, due for completion in 2012.Read moreRead less
Large amplitude Fourier transformed voltammetry: paths towards more efficient data evaluation strategies, enhanced insights and innovation in dynamic electrochemistry. Electrochemistry represents an enabling discipline in many branches of science. The aim of this research is to integrate the collective skills of an international consortium of experts in electrochemistry, electrical engineering, computing and mathematics in order to implement a blueprint proposed for innovation in electrochemic ....Large amplitude Fourier transformed voltammetry: paths towards more efficient data evaluation strategies, enhanced insights and innovation in dynamic electrochemistry. Electrochemistry represents an enabling discipline in many branches of science. The aim of this research is to integrate the collective skills of an international consortium of experts in electrochemistry, electrical engineering, computing and mathematics in order to implement a blueprint proposed for innovation in electrochemical science. In the national interest, the project will facilitate global participation in cutting-edge science derived from electrochemical concepts, provide commercial opportunities in the area of scientific instrumentation and promote technology exchange with Australian and international leading-edge research organizations.Read moreRead less
A blueprint for an intelligent instrumental, theoretical and experimental unification of a myriad of voltammetric and related electrochemical techniques. Electrochemistry is a prominent discipline in many areas of fundamental and applied science (for example, electron transfer reactions, corrosion, sensors, photovoltaics). The aim of the research proposal is to utilise skills available at Monash University and those of a national and international consortium of experts in electrochemistry, elec ....A blueprint for an intelligent instrumental, theoretical and experimental unification of a myriad of voltammetric and related electrochemical techniques. Electrochemistry is a prominent discipline in many areas of fundamental and applied science (for example, electron transfer reactions, corrosion, sensors, photovoltaics). The aim of the research proposal is to utilise skills available at Monash University and those of a national and international consortium of experts in electrochemistry, electrical engineering, computing and mathematics to introduce a new integrated instrumental, theoretical and experimental concept that will provide a blueprint for innovation in electrochemical science. An expected outcome is that important advances relevant to Australian Industry will be achieved in the area of scientific instrumentation and in modern applications of electrochemistry.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560685
Funder
Australian Research Council
Funding Amount
$451,000.00
Summary
Scanning Probe Microscopy for Bioelectrochemistry. New methods to study the fundamental properties of biological samples, in particular proteins, are continuing to advance and impact on society. We will establish a leading edge facility for high-resolution imaging of biomolecules with redox functions. This will enable the continued development of new enzyme based diagnostic tests by understanding the dynamic nature of coupled electron and molecular interactions with redox enzymes in solution. Th ....Scanning Probe Microscopy for Bioelectrochemistry. New methods to study the fundamental properties of biological samples, in particular proteins, are continuing to advance and impact on society. We will establish a leading edge facility for high-resolution imaging of biomolecules with redox functions. This will enable the continued development of new enzyme based diagnostic tests by understanding the dynamic nature of coupled electron and molecular interactions with redox enzymes in solution. The bioelectrochemical imaging facility will be unique in Australia and establish an important cross-disciplinary approach within the international community.Read moreRead less
Development of Optical Clocks and Their Applications to Precision Frequency Measurements and Time Keeping. The goal of the proposed international researcher exchange program is to enhance the ongoing collaboration between the Frequency Standards and Metrology (FSM) Group at the University of Western Australia and leading US research institutions, including National Institute of Standards and Technology (NIST) in the field of (i) laser cooled atomic frequency standards, (ii) methods of optical ....Development of Optical Clocks and Their Applications to Precision Frequency Measurements and Time Keeping. The goal of the proposed international researcher exchange program is to enhance the ongoing collaboration between the Frequency Standards and Metrology (FSM) Group at the University of Western Australia and leading US research institutions, including National Institute of Standards and Technology (NIST) in the field of (i) laser cooled atomic frequency standards, (ii) methods of optical frequency synthesis and coherent time transfer between widely separated parts of electromagnetic spectrum and (iii) generation of low noise microwave signals directly from frequency stabilised ultra-fast pulsed lasers.Read moreRead less
Redox initiated chemistry of hydrogenase H-cluster model compounds: Biologically inspired hydrogen activation catalysts? High efficiency, low temperature, cheap hydrogen activation catalysts suitable for fuel cell applications would provide the basis for the development of environmentally benign technologies suitable for transportation and some power applications. Hydrogenase enzymes are high efficiency, low temperature, hydrogen activation catalysts and the active site of the all-iron version ....Redox initiated chemistry of hydrogenase H-cluster model compounds: Biologically inspired hydrogen activation catalysts? High efficiency, low temperature, cheap hydrogen activation catalysts suitable for fuel cell applications would provide the basis for the development of environmentally benign technologies suitable for transportation and some power applications. Hydrogenase enzymes are high efficiency, low temperature, hydrogen activation catalysts and the active site of the all-iron version of the enzyme has recently been revealed to be a remarkable, weakly protein bound, iron-sulfur-carbonyl-cyanide complex. Research into the reactions of redox activated abiological model compounds will provide insights into the molecular basis of the enzymatic reaction, potentially leading to the discovery of highly efficient, biologically inspired hydrogen activation catalysts.Read moreRead less