Linkage Infrastructure, Equipment And Facilities - Grant ID: LE200100033
Funder
Australian Research Council
Funding Amount
$1,200,000.00
Summary
In situ Environmental Electron Microscope Facility. This project aims to establish an In situ Environmental Electron Microscope Facility to characterise real-time and dynamic changes in nanomaterials at the atomic scale. We will combine a cutting-edge 'in situ' gas/heating/electrical bias holder with new camera and analysis technology on a transmission electron microscope. This facility will be a sophisticated suite of equipment that will innovate and transform microscopy in Australia to image s ....In situ Environmental Electron Microscope Facility. This project aims to establish an In situ Environmental Electron Microscope Facility to characterise real-time and dynamic changes in nanomaterials at the atomic scale. We will combine a cutting-edge 'in situ' gas/heating/electrical bias holder with new camera and analysis technology on a transmission electron microscope. This facility will be a sophisticated suite of equipment that will innovate and transform microscopy in Australia to image structural and compositional changes of materials under stimuli at a speed and resolution previously unachievable. This project will drive pioneering research in the fields of Materials Science, Chemistry and Catalysis to solve problems in advanced manufacturing, energy, technology and the environment.Read moreRead less
Establishing nanoscale design principles for non-viral genome engineering. This project aims to develop a bio-nanotechnology platform for non-viral genome engineering using dendronised polymers. The project will advance both fundamental and practical knowledge at the forefront of nanotechnology and cell biology, whilst providing training to the research community. Outcomes from the project will also provide significant benefits, such as positioning Australia at the forefront of genome engineerin ....Establishing nanoscale design principles for non-viral genome engineering. This project aims to develop a bio-nanotechnology platform for non-viral genome engineering using dendronised polymers. The project will advance both fundamental and practical knowledge at the forefront of nanotechnology and cell biology, whilst providing training to the research community. Outcomes from the project will also provide significant benefits, such as positioning Australia at the forefront of genome engineering.Read moreRead less
Plasmonic Photochemistry: A nanoscopic solution to global energy and environmental problems. Harvesting energy from light sources, including our sun, can provide a significant fraction of the world's energy need over the next century. In order to meet this critical demand, it is crucial to devise ways to transform light energy into chemical fuels. This project aims to create novel nanostructures that directly couple light energy into chemical reactions. This will be achieved by the creation of ....Plasmonic Photochemistry: A nanoscopic solution to global energy and environmental problems. Harvesting energy from light sources, including our sun, can provide a significant fraction of the world's energy need over the next century. In order to meet this critical demand, it is crucial to devise ways to transform light energy into chemical fuels. This project aims to create novel nanostructures that directly couple light energy into chemical reactions. This will be achieved by the creation of metallic nanoparticles that can transform light energy into hot electrons: entities that can efficiently drive the production of chemical fuels in a process similar to that of photosynthesis.Read moreRead less
Nanoparticle inks for electronic applications employing nanostructured thin-films. The development of next-generation technologies requires careful engineering of materials at the nanoscale. Using nanoparticle inks, many of the engineering difficulties which exist at these length scales can be overcome, thus allowing for technologies such as thin-film solar cells to become cheaper and more efficient.