麻豆传媒映画

Twenty one University of Queensland researchers are among 200 nationwide awarded $84 million in grants through the (DECRAs) scheme.

Travelling to and from Mars, developing renewable hydrogen and improving plant performance are among the 麻豆传媒映画 projects that will receive more than $9.1 million from the .

DECRAs support Australia’s next generation of researchers working in key priority areas, giving them time and resources to continue their work.

Each recipient will receive salary support for three years and up to $50,000 in additional funding each year for other costs vital to their project.

麻豆传媒映画’s DECRAs are:

• $431,722 to from the School of Mechanical and Mining Engineering to investigate how flow radiation and heat shield ablation products would interact under a hypersonic return to Earth from Mars. This will bring humankind closer to travelling to and from Mars.
• $433,000 to from the School of Law to examine the development of a system of end point royalties for patent and plant variety-protected crop varies in Australia, where royalties are calculated on the harvest.
• $445,009 to from the School of Veterinary Science to develop a quantitative framework to allow us to better anticipate how ecosystems respond to environmental change.
• $447,346 to from the Institute for Molecular Bioscience to generate new knowledge in the area of neuroscience, to aid in the development of novel analgesics.
• $429,450 to from the Faculty of Medicine to advance basic knowledge in immunology by investigating the interactions between two populations of immune cells: natural killer cells and dendtritic cells.
• $396,948 to from the School of Chemical Engineering to achieve efficient renewable hydrogen production through solar-driven photoelectrochemical water splitting. This will position Australia at the frontier of renewable hydrogen supply techniques.
• $437,299 to from the School of Mathematics and Physics to develop a silicon-based photonic platform to provide a deeper understanding of quantum fluids and quantum mechanics, and enable the realisation of new quantum technologies.
• $427,882 to from the School of Education to investigate the consequences of philanthropic involvement in Australian public schooling, to inform sociological theories and what the state’s role ought to be, particularly in relation to school funding arrangements.
• $423,000 to from the School of Information Technology and Electrical Engineering to investigate the problem of information extraction and develop new techniques for reliable and efficient information discovery from large-scale, low-quality data.
• $444,620 to from the Institute for Social Science Research to investigate how significant life events generate temporary or sustained changes in loneliness. The findings will improve economic and social outcomes for individuals, families and governments.
• $431,015 to from the School of Biological Sciences to develop a suite of analysis techniques to study wildlife communities to generate new knowledge in the fields of ecology and conservation biology.
• $439,082 to  from the School of Information Technology and Electrical Engineering to develop two prototype optical beam shaping systems, culminating in the demonstration of new high-power optic fibre amplifiers, to potentially open new ways to probe objects using light.
• $441,173 to from the School of Clinical Medicine to provide a deeper understanding of the way in which Aboriginal and Torres Strait Islander, African and Afro-diasporic people understand their children’s situation, as dominant conceptions of childhood generally take the figure of the white child.
• $444,075 to to study the nearest, brightest stars by extending the capabilities to NASA’s TESS telescope and Mount Kent Observatory. This is the best chance we have to detect planets around such stars.
• $451,075 to from the School of Psychology to use innovative methods specially designed for children to chart how children use external thinking tools like calculators, GPS and smartphones to solve problems we once solved internally.
• $419,308 to to combine computational modelling, brain imaging and psychological techniques to better understand how people perceive the world through sensory cues, and to reduce ‘cybersickness’ in children, a side effect of virtual reality systems.
• $438,835 to from the School of Mathematics and Physics to uncover new signatures of physics beyond the Standard Model. The project should generate new knowledge to unravel the mystery of dark matter.
• $395,588 to from AIBN to develop a next-generation adhesive nanoparticle platform through in-depth understanding of nanoparticle interactions with bio-interfaces. 
• $429,000 to from the School of Information Technology and Electrical Engineering to develop a novel quantitative imaging technique for in vitro and in vivo tissue characterisation on the microscopic scale. This could revolutionise microscopic imaging techniques.
• $447,524 to from QAAFI to investigate how biological and environmental data can be integrated to improve the prediction of plant performance under climatic fluctuations. This will generate new knowledge in the area of quantitative genetics.
• $461,249 to from QAAFI to discover new avenues for crop improvement and significantly benefit crop breeding and food production capacity, using a sorghum model.

Media: 麻豆传媒映画 Communications, communications@uq.edu.au; 07 3365 1130.