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
Discovery Early Career Researcher Award - Grant ID: DE240100623
Funder
Australian Research Council
Funding Amount
$412,037.00
Summary
New electrodes for green electrochemical carbon dioxide capture. This project aims to develop new electrochemical carbon capture technology. By designing and fabricating new functional electrodes and high-performance electrochemical devices based on water and driven by renewable electricity, this project will enhance the ability to capture CO2, the primary greenhouse gas that causes global climate change. Expected outcomes include new multi-dimension electrodes with unique chemistry and state-of ....New electrodes for green electrochemical carbon dioxide capture. This project aims to develop new electrochemical carbon capture technology. By designing and fabricating new functional electrodes and high-performance electrochemical devices based on water and driven by renewable electricity, this project will enhance the ability to capture CO2, the primary greenhouse gas that causes global climate change. Expected outcomes include new multi-dimension electrodes with unique chemistry and state-of-the-art CO2 capture devices plus in-depth knowledge of electrochemical CO2 capture mechanisms for optimised device design and control. Benefits include the development of circular carbon economies with capabilities to effectively capture CO2, supporting Australian industries to achieve net zero emissions by 2050.Read moreRead less