Linkage Infrastructure, Equipment And Facilities - Grant ID: LE240100004
Funder
Australian Research Council
Funding Amount
$762,800.00
Summary
Ultrafast Infrared Spectroscopy Facility. The Ultrafast Infrared Spectroscopy Facility will provide a suite of techniques spanning the visible to mid-infrared spectral regions, on time scales corresponding to the emission of light, and energy conversion in low energy advanced functional materials. Research performed with this equipment will include photonic and thermal energy conversion; nanophotonics; quantum technologies and new infrared functional materials. This facility will enhance capacit ....Ultrafast Infrared Spectroscopy Facility. The Ultrafast Infrared Spectroscopy Facility will provide a suite of techniques spanning the visible to mid-infrared spectral regions, on time scales corresponding to the emission of light, and energy conversion in low energy advanced functional materials. Research performed with this equipment will include photonic and thermal energy conversion; nanophotonics; quantum technologies and new infrared functional materials. This facility will enhance capacity in probing new materials and devices in the near and mid-infrared regions, and will increase institutional and cross-disciplinary research collaboration.Read moreRead less
Nano-optics and ultra-thin materials for an infrared spectrometer-on-a-chip. Aims: This project aims to advance optical nanoresonators and ultra-thin materials in the infrared spectral region. The project aims to use this knowledge to demonstrate an infrared spectrometer on a chip.
Significance: Infrared spectroscopy is a powerful method for identifying and study matter but is carried out using instruments that are generally large, heavy, power hungry and costly.
Expected outcomes: It is expec ....Nano-optics and ultra-thin materials for an infrared spectrometer-on-a-chip. Aims: This project aims to advance optical nanoresonators and ultra-thin materials in the infrared spectral region. The project aims to use this knowledge to demonstrate an infrared spectrometer on a chip.
Significance: Infrared spectroscopy is a powerful method for identifying and study matter but is carried out using instruments that are generally large, heavy, power hungry and costly.
Expected outcomes: It is expected that this project will generate knowledge that will allow dramatic reductions in the size, weight, power consumption and cost of infrared spectrometers.
Benefits: This should allow infrared spectrometers to be used in applications for which the size/weight/power consumption/cost of current approaches prevent their use.
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Discovery Early Career Researcher Award - Grant ID: DE220100154
Funder
Australian Research Council
Funding Amount
$426,000.00
Summary
Engineering twisted two-dimensional materials for mid-infrared detectors. This project aims to engineer twisted two-dimensional materials and develop efficient room-temperature mid-infrared detectors that sense both the intensity and polarisation of light. This project expects to generate a cost-effective, ultra-compact, and multifunctional mid-infrared optical platform with high energy conversion efficiency towards advanced sensing and imaging systems. The anticipated goal of this project is to ....Engineering twisted two-dimensional materials for mid-infrared detectors. This project aims to engineer twisted two-dimensional materials and develop efficient room-temperature mid-infrared detectors that sense both the intensity and polarisation of light. This project expects to generate a cost-effective, ultra-compact, and multifunctional mid-infrared optical platform with high energy conversion efficiency towards advanced sensing and imaging systems. The anticipated goal of this project is to deliver high value-added devices with reduced energy consumption for the electronics and photonics industries. This should provide significant economic and environmental benefits by realising technological innovations, savings in materials and energy costs, and reduced environmental impact in advanced manufacturing.Read moreRead less