Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100100
Funder
Australian Research Council
Funding Amount
$440,000.00
Summary
Cytometer by Time of Flight (CyTOF): A New Paradigm in Cytometry. Cytometer by Time of Flight (CyTOF) - a new paradigm in cytometry: The acquisition of a Cytometer by Time of Flight will allow multiparametric characterisation of biological systems and quantitative analysis of nano-bio interactions at the single cell level. The convergence of nanotechnology with biomedicine offers unprecedented opportunities for biological applications, including targeted therapeutics. One of the major challenges ....Cytometer by Time of Flight (CyTOF): A New Paradigm in Cytometry. Cytometer by Time of Flight (CyTOF) - a new paradigm in cytometry: The acquisition of a Cytometer by Time of Flight will allow multiparametric characterisation of biological systems and quantitative analysis of nano-bio interactions at the single cell level. The convergence of nanotechnology with biomedicine offers unprecedented opportunities for biological applications, including targeted therapeutics. One of the major challenges lies in understanding the complex interactions between nanoengineered materials and biological systems.Read moreRead less
Engineered and functionalized nanocarbons for clean energy and water. This project aims to develop a novel material platform based on metal-free graphitic carbon nitride and its functionalised composites in solar energy utilisation for water treatment, energy conversion to hydrogen, solar cell, and electrochemical battery in energy storage. The project aims to address the scientific challenges in rational nanomaterial synthesis, functionalisation and practical applications. The research outcomes ....Engineered and functionalized nanocarbons for clean energy and water. This project aims to develop a novel material platform based on metal-free graphitic carbon nitride and its functionalised composites in solar energy utilisation for water treatment, energy conversion to hydrogen, solar cell, and electrochemical battery in energy storage. The project aims to address the scientific challenges in rational nanomaterial synthesis, functionalisation and practical applications. The research outcomes are expected to provide a scientific basis for development of cutting-edge nanotechnologies for sustainable energy transformation and wastewater treatment, leading to significant benefits in Australian energy industries and environment.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100146
Funder
Australian Research Council
Funding Amount
$500,000.00
Summary
Multiphoton confocal microscope for high-speed, deep tissue imaging and multimodal nanoscale characterisation. This facility will provide the ability to optically section deep nanoparticles, cells, tissues and whole animals at high speed with unsurpassed spatial resolution at the atomic level. It will give biomedical, physical and life scientists and materials engineers the opportunity to image a range of dynamic processes and reconstruct these in three dimensions for the first time.