Linkage Infrastructure, Equipment And Facilities - Grant ID: LE240100050
Funder
Australian Research Council
Funding Amount
$1,681,491.00
Summary
A national network for magnetic resonance spectroscopy. Our proposed network of high-end facilities for solid-state nuclear magnetic resonance spectroscopy aims to establish cutting-edge capabilities nationally for molecular and materials characterisation. The new infrastructure will enable advanced studies in chemistry, drug design, materials science, and environmental sciences. The expected outcomes include new discoveries, innovative applications, and potential commercialisation of new produc ....A national network for magnetic resonance spectroscopy. Our proposed network of high-end facilities for solid-state nuclear magnetic resonance spectroscopy aims to establish cutting-edge capabilities nationally for molecular and materials characterisation. The new infrastructure will enable advanced studies in chemistry, drug design, materials science, and environmental sciences. The expected outcomes include new discoveries, innovative applications, and potential commercialisation of new products, which will bring significant economic benefits to the Australian economy. Additionally, the network will foster collaborations with international researchers and industry partners in areas of biotechnology, energy capture and storage, and environmental sustainability.Read moreRead less
Nanobionic sensors for Real-Time Plant Health Monitoring. This project aims to develop nanosensors to detect and monitor plant health in real-time by measuring stress molecules. The project will create new knowledge on functional materials with unique optical, electronic and thermal properties as well as their bio-nano interactions with plants. The expected outcomes of the project will provide insight into 1) how localised nanosensors target organelles in living plants to 2) generate signals tha ....Nanobionic sensors for Real-Time Plant Health Monitoring. This project aims to develop nanosensors to detect and monitor plant health in real-time by measuring stress molecules. The project will create new knowledge on functional materials with unique optical, electronic and thermal properties as well as their bio-nano interactions with plants. The expected outcomes of the project will provide insight into 1) how localised nanosensors target organelles in living plants to 2) generate signals that can be picked up by portable devices to 3) report on plant health. Functional nanosensors will enable smart farming, precision agriculture and contribute to future agronomic research, further strengthening Australia’s position as an international leader in nanobiotechnology.Read moreRead less
Rational design of array-based nanozyme sensors. The project aims to obtain a deep understanding of molecular interactions at the nano-bio interface, and use this knowledge to develop a robust sensor technology for the rapid detection of foodborne pathogens in complex samples. The project proposes to employ an innovative approach that mimics the senses of smell and taste, where an array of aptamers are expected to work in synergy to precisely identify a target, providing an edge over current sen ....Rational design of array-based nanozyme sensors. The project aims to obtain a deep understanding of molecular interactions at the nano-bio interface, and use this knowledge to develop a robust sensor technology for the rapid detection of foodborne pathogens in complex samples. The project proposes to employ an innovative approach that mimics the senses of smell and taste, where an array of aptamers are expected to work in synergy to precisely identify a target, providing an edge over current sensing technologies. Expected outcomes include a ready-to-go analytical tool for the detection of food contaminants. This should provide significant economic, health, and social benefits through supporting Australian food and health sectors, and the potential commercialisation of sensor technologies.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE240100135
Funder
Australian Research Council
Funding Amount
$880,000.00
Summary
An ion mobility-mass spectrometry based platform for structural proteomics. This project aims to establish a nationally unique facility dedicated to structural proteomics, combining high resolution ion mobility mass spectrometry with advanced separation, hydrogen/deuterium exchange and imaging platforms. Such technology is critical to characterise 3D biomacromolecular structures, dynamics, interactions and spatial location on a proteome-wide scale, and overcome current analytical limitations for ....An ion mobility-mass spectrometry based platform for structural proteomics. This project aims to establish a nationally unique facility dedicated to structural proteomics, combining high resolution ion mobility mass spectrometry with advanced separation, hydrogen/deuterium exchange and imaging platforms. Such technology is critical to characterise 3D biomacromolecular structures, dynamics, interactions and spatial location on a proteome-wide scale, and overcome current analytical limitations for structure determination from complex biological samples, particularly for closely related (isomeric) components. Servicing a diverse research community, this will enable new molecular insights to better understand the natural world, and accelerate cutting edge biotechnology advances intersecting life and chemical sciences.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE240100032
Funder
Australian Research Council
Funding Amount
$450,000.00
Summary
Small Animal In Vivo Imaging Facility with microCT imaging capabilities . This project aims to establish a state-of-the-art small animal in vivo imaging facility with microCT imaging capabilities, which is the first of its kind in the regional growth area of Hunter New England and the Central Coast in NSW. This facility will provide high resolution and high-speed scanning of anatomical structures in 2D and 3D, which is expected to generate detailed knowledge of the fundamental biological process ....Small Animal In Vivo Imaging Facility with microCT imaging capabilities . This project aims to establish a state-of-the-art small animal in vivo imaging facility with microCT imaging capabilities, which is the first of its kind in the regional growth area of Hunter New England and the Central Coast in NSW. This facility will provide high resolution and high-speed scanning of anatomical structures in 2D and 3D, which is expected to generate detailed knowledge of the fundamental biological processes in humans and animals in real-time across longitudinal studies as well as improve animal welfare by addressing the 3Rs by reducing animal usage. This project will foster interdisciplinary local, national, and international research stemming from world-class research in this region. Read moreRead less