This project will develop novel functionalised nanostructures with properties tailored to some important applications, which will provide source and platform technologies for more efficient, safer and cleaner means of hydrogen storage. Fundamental research on novel functionalised nanostructures will lead to possible new breakthroughs in both hydrogen energy and materials science. Novel functionalised nanostructures will significantly increase the efficiency of hydrogen storage and bring new opportunities for innovative nanotechnology to hydrogen energy technologies and other areas, e.g. biomedical and microelectronics applications, etc. It will enhance our international competitiveness in energy, manufacturing, medicine, and electronics.
This project will develop novel functionalised nanostructures with properties tailored to some important applications, which will provide source and platform technologies for more efficient, safer and cleaner means of hydrogen storage. Fundamental research on novel functionalised nanostructures will lead to possible new breakthroughs in both hydrogen energy and materials science. Novel functionalised nanostructures will significantly increase the efficiency of hydrogen storage and bring new opportunities for innovative nanotechnology to hydrogen energy technologies and other areas, e.g. biomedical and microelectronics applications, etc. It will enhance our international competitiveness in energy, manufacturing, medicine, and electronics.
