Developmental Schizotypy In The General Population: Early Risk Factors And Predictive Utility.
Funder
National Health and Medical Research Council
Funding Amount
$830,952.00
Summary
This study will determine early childhood risk factors for psychosis-proneness in children aged 11 years, and emerging signs and symptoms of mental health disorders of these children, using population data from the NSW Child Development Study. Determining risk for psychosis as early as possible in the life course will enable the provision of preventative interventions to children at critical points in development.
Improving Global Tuberculosis Control With The AuTuMN Platform
Funder
National Health and Medical Research Council
Funding Amount
$655,059.00
Summary
Tuberculosis (TB) is the world’s leading infectious killer, with the failure of global control responsible for the vast majority of Australia’s cases. Using our robustly developed software platform, we have performed several country-level studies to predict the future burden of disease and compare the impact of alternative responses to controlling the epidemic. In this project, we will extend our platform to perform simulations at the global level and answer key questions in TB control.
Adequate nutrition is necessary for recovery from illness. 30-40% of hospitalised patients may be malnourished. The critically ill are at higher risk because of increased energy requirements yet often receive less than 50% of required nutritional intake. Adequate nutrition therapy is associated with improved patient outcomes, such as reduced mortality and reduced infectious complications. Robust strategies to implement of evidence-based recommendations for nutrition therapy are required.
Discovery Early Career Researcher Award - Grant ID: DE120102640
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Behavioural foundations of economic design for an uncertain world. The aim of this project is to incorporate behavioural foundations into mechanism design to improve our understanding of economic institutions in incomplete information environments. To accomplish this goal, it considers a framework where agents have reference-dependent preferences and explores implications of this assumption for economic design.
The Centre for Research Excellence in Nursing Interventions for Hospitalised Patients will provide evidence to improve the nursing care of a broad range of hospitalised patients who are at risk of complications related to compromised skin integrity and poor pain/anxiety management. Systematic reviews and clinical trials will provide the basis for developing clinical practice guidelines to assist nurses in providing high quality care to the 3.5 million Australians admitted to hospital each year.
Discovery Early Career Researcher Award - Grant ID: DE180100190
Funder
Australian Research Council
Funding Amount
$363,996.00
Summary
Auction design with behavioural bidders. This project aims to incorporate behavioural elements from psychology into the economic analysis of auctions. The project will address discrepancies between traditional economic analysis of auctions based on fully rational bidders, and evidence from psychology and behavioural economics which demonstrates systemic departures from rational decision-making. This will expand realism in economic analysis and contribute new insights for the design of relevant, ....Auction design with behavioural bidders. This project aims to incorporate behavioural elements from psychology into the economic analysis of auctions. The project will address discrepancies between traditional economic analysis of auctions based on fully rational bidders, and evidence from psychology and behavioural economics which demonstrates systemic departures from rational decision-making. This will expand realism in economic analysis and contribute new insights for the design of relevant, real-world auctions such as real-estate auctions or internet auctions. The project outcomes are expected to enhance the efficient allocation of resources, improve our understanding of how different rules affect buyers' well-being and help design fairer auctions.Read moreRead less
Bulk Mg based hydrogen storage alloys with faster activation. Bulk Mg based hydrogen storage alloys with faster activation. This project aims to improve the performance and efficiency of manufacture of magnesium-based hydrogen storage alloys, making them more cost competitive and widely useable. A hydrogen economy will reduce greenhouse gas emissions and improve air quality in urban areas. The expected outcomes are an understanding of the mechanisms governing the activation process, a necessary ....Bulk Mg based hydrogen storage alloys with faster activation. Bulk Mg based hydrogen storage alloys with faster activation. This project aims to improve the performance and efficiency of manufacture of magnesium-based hydrogen storage alloys, making them more cost competitive and widely useable. A hydrogen economy will reduce greenhouse gas emissions and improve air quality in urban areas. The expected outcomes are an understanding of the mechanisms governing the activation process, a necessary step in manufacture, and techniques to exploit these mechanisms to minimise the activation time. This is expected to develop competitive, bulk magnesium-based hydrogen storage alloys for effective and safe hydrogen storage systems.Read moreRead less
All-Metal Nanoporous Materials as Highly Active Electrocatalysts. This project aims to create new avenues for well-controlled large-scale synthesis of hierarchical nanoporous platinum-based architectures, and develop applications for the resultant new electrocatalysts. Developing novel high-performance, low-cost, and long-life electrode catalysts can improve the efficiency, cost, and durability of energy conversion technology. The project plans to use the unique properties of well-defined nanoar ....All-Metal Nanoporous Materials as Highly Active Electrocatalysts. This project aims to create new avenues for well-controlled large-scale synthesis of hierarchical nanoporous platinum-based architectures, and develop applications for the resultant new electrocatalysts. Developing novel high-performance, low-cost, and long-life electrode catalysts can improve the efficiency, cost, and durability of energy conversion technology. The project plans to use the unique properties of well-defined nanoarchitectures to reduce platinum content and to improve electrocatalytic performance. Nanoporous systems in electrocatalysts can provide more active sites and effective surface permeability, which should enhance catalytic activity. Project outcomes may also contribute to our understanding of the relationships among morphologies, pore structures, surface atomic structures and catalytic activities to guide the development of other kinds of high performance nanoporous catalysts.Read moreRead less