Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347937
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
Imaging Raman Spectrometer. An Imaging Raman spectrometer generates image maps 10x faster than older instruments and is required to meet escalating demand. This results from innovative use of Raman to characterise organics, polymers, thin films and biomaterials, which underpins rapidly evolving research in nanotechnology and biotechnology. Many innovations have come from QUT's Centre for Instrumental and Developmental Chemistry, which will host the spectrometer and is a key resource for all Qu ....Imaging Raman Spectrometer. An Imaging Raman spectrometer generates image maps 10x faster than older instruments and is required to meet escalating demand. This results from innovative use of Raman to characterise organics, polymers, thin films and biomaterials, which underpins rapidly evolving research in nanotechnology and biotechnology. Many innovations have come from QUT's Centre for Instrumental and Developmental Chemistry, which will host the spectrometer and is a key resource for all Queensland universities. The availability of its high quality spectroscopic facility has enabled leading edge developments by local companies and the Imaging Raman spectrometer will significantly accelerate and enhance current and future project outcomes.Read moreRead less
Light-Matter Interactions In Nanoparticle-doped Microstructured Polymer Fibres. Microstructured optical fibres have been defined as the 'next generation' of optical fibres. This proposal offers the opportunity to make major advances in this dynamic new area, not only changing the fibre properties by means of its microstructured but also by its material properties. The proposed research will enable us to fabricate new types of optical fibre by exploiting three completely different technologies: p ....Light-Matter Interactions In Nanoparticle-doped Microstructured Polymer Fibres. Microstructured optical fibres have been defined as the 'next generation' of optical fibres. This proposal offers the opportunity to make major advances in this dynamic new area, not only changing the fibre properties by means of its microstructured but also by its material properties. The proposed research will enable us to fabricate new types of optical fibre by exploiting three completely different technologies: polymer materials, microstructured polymer fibres (mPOF) and nanoparticles. This project will build on our existing success in developing mPOF, and create major new opportunities, both in fundamental science and in applications that could and would be commercialised.Read moreRead less