Nanodiamond in glass: a new approach to nanosensing. This work will develop optical materials enriched with diamond nanoparticles. This will enable the magnetic field sensitivity of diamond nanoparticles to be combined with the capacity of micro/nanostructured optical fibres to enhance the interaction of light with matter. The outcome will be tools for probing biological processes on the nanoscale.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE200100151
Funder
Australian Research Council
Funding Amount
$744,000.00
Summary
Multi-kilohertz laser for attosecond and ultrafast science. Griffith University's Australian Attosecond Science Facility was established 12 years ago to facilitate internationally leading research into strong-field laser science. The facility is unique in Australia as it has the capability to precisely manipulate highly-amplified and ultra-short light pulses to investigate the dynamics of matter. The scientific outputs from the facility have delivered important new scientific advances in strong ....Multi-kilohertz laser for attosecond and ultrafast science. Griffith University's Australian Attosecond Science Facility was established 12 years ago to facilitate internationally leading research into strong-field laser science. The facility is unique in Australia as it has the capability to precisely manipulate highly-amplified and ultra-short light pulses to investigate the dynamics of matter. The scientific outputs from the facility have delivered important new scientific advances in strong-field physics enabling the development of new technologies. This grant will be used to procure an upgraded laser system enabling an order of magnitude enhancement of the output light for the next-generation research and maintaining international competitiveness of Australian investigators in this field.Read moreRead less
Electron-driven radical chemistry in plasmas for emerging technologies. The project aims to study electron interactions with the hydroxyl radical (OH). OH is formed in plasmas and atmospheric environments when energetic particles interact with water. Emerging applications of plasmas in wastewater treatment, sterilisation and medicine will be built around OH chemistry. The high intensity of OH spectral emissions has made them useful for remote sensing atmospheric phenomena and diagnosing plasma p ....Electron-driven radical chemistry in plasmas for emerging technologies. The project aims to study electron interactions with the hydroxyl radical (OH). OH is formed in plasmas and atmospheric environments when energetic particles interact with water. Emerging applications of plasmas in wastewater treatment, sterilisation and medicine will be built around OH chemistry. The high intensity of OH spectral emissions has made them useful for remote sensing atmospheric phenomena and diagnosing plasma properties. However, the poor understanding of electron interactions with OH limits our ability to reliably interpret these results. This project therefore aims to experimentally study electron interactions with the hydroxyl radical. The measured values will be applied in simulations that clarify the role of electron–OH interactions in plasma-like environments.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL130100044
Funder
Australian Research Council
Funding Amount
$2,965,000.00
Summary
Controlling light to understand and drive nanoscale processes. This project aims to develop a suite of light-based sensing technologies capable of quantifying the dynamic environment within a living cell. These technologies will extend our capacity to harness light-matter interactions at the nanoscale, providing new insights in fields ranging from plant biology to medicine.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100073
Funder
Australian Research Council
Funding Amount
$174,627.00
Summary
Australian Contribution to CERN Large Hadron Collider Experiment Upgrade. Australian contribution to CERN large hadron collider experiment upgrade: The discovery of the Higgs Boson with the ATLAS experiment at the CERN laboratory's large hadron collider, has been a highlight for Australian science. Scientists will build upon the foundation of the Higgs discovery to further probe the nature of matter at the finest scales and highest energies. Detailed measurements of the Higgs characteristics wil ....Australian Contribution to CERN Large Hadron Collider Experiment Upgrade. Australian contribution to CERN large hadron collider experiment upgrade: The discovery of the Higgs Boson with the ATLAS experiment at the CERN laboratory's large hadron collider, has been a highlight for Australian science. Scientists will build upon the foundation of the Higgs discovery to further probe the nature of matter at the finest scales and highest energies. Detailed measurements of the Higgs characteristics will determine if it is as predicted by the Standard Model or whether it admits a variation, signalling new physics. The upgrade in this project will provide for such detailed measurements. It will also allow sensitive probes of new physics, searching for new particles or unexpected interactions.Read moreRead less
Ultrafast, near infrared laser sources using fibre-based optical parametric oscillators. This project will use microstructured optical fibres and nonlinear optics to create compact and cheap laser sources in the near infrared spectrum to replace the bulky and expensive devices in many spectroscopic and biophotonic applications today. The work will further enhance Australia's standing in the field of nonlinear optics and optical fibres.
Molecular movies using time-resolved momentum spectroscopies. This project aims to use time-resolved momentum spectroscopies to take snapshots of chemical and physical processes as they evolve in time. This project expects to use these molecular movies to track the changes to electron motion after they have absorbed light. Expected outcomes of this project include understanding how the motion of electrons can drive physical processes and induce chemical changes. This will provide significant ben ....Molecular movies using time-resolved momentum spectroscopies. This project aims to use time-resolved momentum spectroscopies to take snapshots of chemical and physical processes as they evolve in time. This project expects to use these molecular movies to track the changes to electron motion after they have absorbed light. Expected outcomes of this project include understanding how the motion of electrons can drive physical processes and induce chemical changes. This will provide significant benefits through expanding knowledge that will assist in controlling chemical reactions and developing technologies with improved performance, such as sensors and solar cells. Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC180100049
Funder
Australian Research Council
Funding Amount
$4,380,454.00
Summary
ARC Training Centre for Future Energy Storage Technologies. The ARC Training Centre for Future Energy Storage Technologies aims to equip the next generation of researchers and the energy technology workforce with the skills needed to drive innovation, exploration and investigation so we safeguard our workers and industries. The Centre aims to challenge existing thinking and expand Australia’s capacity in energy storage and production. The Centre expects to create new knowledge and intellectual p ....ARC Training Centre for Future Energy Storage Technologies. The ARC Training Centre for Future Energy Storage Technologies aims to equip the next generation of researchers and the energy technology workforce with the skills needed to drive innovation, exploration and investigation so we safeguard our workers and industries. The Centre aims to challenge existing thinking and expand Australia’s capacity in energy storage and production. The Centre expects to create new knowledge and intellectual property in advanced energy materials, batteries and battery-control systems for integration into end user industries. This Centre will facilitate small to medium-sized enterprises to take a global leadership role in advancing and producing new age storage technologies. By harnessing the expertise of researchers and industry partners the Centre aims to deliver benefit to our economy, the community and the environment.
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Discovery Early Career Researcher Award - Grant ID: DE150100091
Funder
Australian Research Council
Funding Amount
$341,000.00
Summary
Traffic on DNA: interplay between RNA polymerases and DNA-bound proteins. The DNA inside the cell is not just a repository of information, but is an active player in how that information is used. Proteins bind to defined locations on the DNA to control which genes are active, and genes are expressed by RNA polymerases that track along the DNA. Collisions between RNA polymerases and DNA-bound proteins can remove the proteins or block the polymerase. How can these essential processes safely coexis ....Traffic on DNA: interplay between RNA polymerases and DNA-bound proteins. The DNA inside the cell is not just a repository of information, but is an active player in how that information is used. Proteins bind to defined locations on the DNA to control which genes are active, and genes are expressed by RNA polymerases that track along the DNA. Collisions between RNA polymerases and DNA-bound proteins can remove the proteins or block the polymerase. How can these essential processes safely coexist on the DNA? The project aims to integrate systematic experiments using well-defined genetic components and mathematical modelling to understand the 'design' features of DNA and proteins that minimise these traffic problems. A better understanding could inform new strategies for manipulation of gene expression.Read moreRead less
Advanced eyesafe Er:YAG short pulsed lasers for remote sensing applications. This project will develop state-of-the-art tunable pulsed Er:YAG laser systems that will represent a significant advance for eyesafe remote sensing and range finder technologies. It will render obsolete, current state-of-the-art systems for laser ranging and enable remote sensing of a critical greenhouse gas.