Nanowire quantum well infrared photodetectors. This project aims to demonstrate semiconductor nanowire based quantum well infrared (IR) photodetectors for applications in chemical analysis, remote sensing, thermal imaging, environmental monitoring, space ranging and communications. By utilising one-dimensional nanowire detector architecture, the project expects that improved sensitivity, functionality and reduced cost can be achieved surpassing the performance of current IR technologies. This pr ....Nanowire quantum well infrared photodetectors. This project aims to demonstrate semiconductor nanowire based quantum well infrared (IR) photodetectors for applications in chemical analysis, remote sensing, thermal imaging, environmental monitoring, space ranging and communications. By utilising one-dimensional nanowire detector architecture, the project expects that improved sensitivity, functionality and reduced cost can be achieved surpassing the performance of current IR technologies. This project will pave the way for a new research and development platform for next generation large scale, low cost, high performance IR systems with commercialisation opportunities accessible to both high-end defence sectors and broader civilian industries.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE130101264
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Carbon nanotube-based supercapacitors: breaking the energy density limit. Novel electrodes will be nano-architectured by using ultralong single-walled carbon nanotube arrays and transition metal oxides to produce next-generation supercapacitors. The outcomes will lead to unprecedented energy densities in energy storage devices for sustainable future energy solutions.