Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100056
Funder
Australian Research Council
Funding Amount
$621,198.00
Summary
High-frequency ultrasound and photoacoustic imaging for Western Australia. This project aims to obtain a small animal, high-frequency ultrasound and photoacoustic imaging instrument, to be placed in the University of Western Australia's Centre for Microscopy, Characterisation and Analysis. As a node of the National Imaging Facility, this infrastructure will result in enhanced capacity for fundamental, interdisciplinary, biological, and bionanotechnology research in Western Australia, and enable ....High-frequency ultrasound and photoacoustic imaging for Western Australia. This project aims to obtain a small animal, high-frequency ultrasound and photoacoustic imaging instrument, to be placed in the University of Western Australia's Centre for Microscopy, Characterisation and Analysis. As a node of the National Imaging Facility, this infrastructure will result in enhanced capacity for fundamental, interdisciplinary, biological, and bionanotechnology research in Western Australia, and enable pursuit of projects previously only possible either interstate or internationally. New capacity in small animal in-vivo imaging will generate knowledge in biology, feeding into such areas as species conservation and reproductive health, and intellectual property and commercial opportunity in areas such as medical imaging and theranostics.Read moreRead less
Super-resolution imaging techniques based on van der Waals materials. This project aims to address the most pressing challenges in the field of super-resolution fluorescence nanoscopies, which underpin a vast range of biomedical imaging and sensing applications. The project will develop fluorescent probes and new imaging schemes that are simultaneously ultra-bright, photostable, biocompatible and do not require the use of high-power lasers that damage samples during image acquisition. This will ....Super-resolution imaging techniques based on van der Waals materials. This project aims to address the most pressing challenges in the field of super-resolution fluorescence nanoscopies, which underpin a vast range of biomedical imaging and sensing applications. The project will develop fluorescent probes and new imaging schemes that are simultaneously ultra-bright, photostable, biocompatible and do not require the use of high-power lasers that damage samples during image acquisition. This will be achieved by exploiting unique properties of recently-discovered quantum emitters in van der Waals nanomaterials. The project outcomes will yield a new approach to super-resolution imaging, advance understanding of quantum emitters, and develop new techniques for the processing of van der Waals materials. This is expected to have applications in a diverse range of sectors, and enable new markets in nanotechnology and manufacturing of high-performance Australian-made products.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE200100985
Funder
Australian Research Council
Funding Amount
$427,116.00
Summary
Shining a Light on Brain Temperature with Near-Infrared Nanosensors. This project aims to develop a contactless thermometry approach based on near-infrared fluorescence to map brain or nerve temperature in real-time. This research expects to generate new knowledge in the field of neuroscience using tools from optics, nanotechnology and materials science. The technique generated as a result of this project is expected to enable the quantification of the transient local heating of the nervous syst ....Shining a Light on Brain Temperature with Near-Infrared Nanosensors. This project aims to develop a contactless thermometry approach based on near-infrared fluorescence to map brain or nerve temperature in real-time. This research expects to generate new knowledge in the field of neuroscience using tools from optics, nanotechnology and materials science. The technique generated as a result of this project is expected to enable the quantification of the transient local heating of the nervous system in different situations and the study of how this affects neural function. This is expected to provide significant benefits, enabling the development of regulatory frameworks that ensure the safe implementation of new therapies for neurological and neurodegenerative disorders.Read moreRead less