Informing intervention responses to violent offenders through data linkage. The project aims to capitalise on new data access capacity to improve knowledge on violent offender pathways and criminogenic needs, such as acquired brain injury, to reduce offending and re-offending. Violence is a major social and health issue nationally and internationally. While there has been substantial investment in treatment/prevention campaigns, rates of violence remain high. Using diverse linked administrative ....Informing intervention responses to violent offenders through data linkage. The project aims to capitalise on new data access capacity to improve knowledge on violent offender pathways and criminogenic needs, such as acquired brain injury, to reduce offending and re-offending. Violence is a major social and health issue nationally and internationally. While there has been substantial investment in treatment/prevention campaigns, rates of violence remain high. Using diverse linked administrative data, we will identify key risk factors and times in trajectories, as well as effective treatment/justice responses. Expected benefits include evidence-based recommendations and engagement with policymakers targeting recidivism, offender screening, treatment, and coordinated violence prevention policy and practice.Read moreRead less
Carbon-Supported Iron Catalysts for Selective Catalytic Reduction of NO. Nitric oxide (NO) is a major pollutant from combustion systems. This project aims to develop cost-effective and environmentally benign zerovalent iron catalysts supported on carbon material for selective catalytic reduction (SCR) of NO using CO and unburned hydrocarbons as in-situ reductants. By applying differential reactor experimentation, kinetic modelling and advanced material characterisation techniques, the research w ....Carbon-Supported Iron Catalysts for Selective Catalytic Reduction of NO. Nitric oxide (NO) is a major pollutant from combustion systems. This project aims to develop cost-effective and environmentally benign zerovalent iron catalysts supported on carbon material for selective catalytic reduction (SCR) of NO using CO and unburned hydrocarbons as in-situ reductants. By applying differential reactor experimentation, kinetic modelling and advanced material characterisation techniques, the research will unravel complex relationships among catalyst structural features and activity, NO reduction mechanisms, and catalyst performance under practically relevant combustion conditions that underpin the development of an effective yet affordable SCR technology to control NO emission from industrial utilities and automobiles.Read moreRead less
Improving social and economic outcomes for children of incarcerated mothers. This project aims to identify how children’s experiences of maternal incarceration shape their life course. These children are one of the most vulnerable yet invisible groups in society and are rising in number. This project intends to interrogate system contact with child protection, justice, education and health agencies using a unique linked dataset across 30 years and over three generations, to describe social and e ....Improving social and economic outcomes for children of incarcerated mothers. This project aims to identify how children’s experiences of maternal incarceration shape their life course. These children are one of the most vulnerable yet invisible groups in society and are rising in number. This project intends to interrogate system contact with child protection, justice, education and health agencies using a unique linked dataset across 30 years and over three generations, to describe social and economic outcomes and how prison, child and maternal characteristics affect them. The project expects to provide critical evidence that can inform prevention strategies, with the potential to disrupt intergenerational patterns of profound disadvantage and reduce the social and economic costs of maternal incarceration to individuals and society.Read moreRead less
Spatio-temporal analysis of molecular changes during leaf senescence in arabidopsis and wheat and their response to the environment. Innovative agricultural solutions in Australia can be gained by changing the abundance of proteins and metabolites to influence plant performance and provide more robust plants and plant products. The aging and dying of leaves (leaf senescence) is a key factor in our understanding of plant development and the recovery of nutrients from dying tissues. Leaf senescenc ....Spatio-temporal analysis of molecular changes during leaf senescence in arabidopsis and wheat and their response to the environment. Innovative agricultural solutions in Australia can be gained by changing the abundance of proteins and metabolites to influence plant performance and provide more robust plants and plant products. The aging and dying of leaves (leaf senescence) is a key factor in our understanding of plant development and the recovery of nutrients from dying tissues. Leaf senescence is also important for pre-harvest impacts on seed and grain quality as leaves represent the major nitrogen store remobilised to feed these plant products. This work will support the generation of intellectual property to be applied within Australia's plant-based industries and at the same time provides a strong environment for the training of students and researchers.Read moreRead less
Novel multiple-constraint model for green buildings and life-cycle analyses. This project aims to develop a multiple-constraint automation model to perform life-cycle analyses for projects in the Australian construction industry. The model will optimise construction methods for green-building implementation and offer a realistic approach to Green-star status achievement. The Life-cycle model analyses for cost, greenhouse-gas emissions and energy consumption allowing the construction methods to b ....Novel multiple-constraint model for green buildings and life-cycle analyses. This project aims to develop a multiple-constraint automation model to perform life-cycle analyses for projects in the Australian construction industry. The model will optimise construction methods for green-building implementation and offer a realistic approach to Green-star status achievement. The Life-cycle model analyses for cost, greenhouse-gas emissions and energy consumption allowing the construction methods to be optimised for minimum environmental impact. Utilisation of the model should significantly shape an organisations’ strategic planning, while a recognised high Green-star status from Green Building Council of Australia will improve their reputation and bring benefits to the construction industry.Read moreRead less
Regulation of Indigenous Safety Strategies: Night Patrols & Policy. This project aims to identify the qualities that make Indigenous night patrols (NPs) unique, to inform and improve the capacities of agencies and regulatory authorities and indigenous communities to work together, leading to greater security, peace and safety. Crime and safety in Aboriginal communities remains a major concern. NPs, an Australian innovation developed by Aboriginal communities, have become key players in local cri ....Regulation of Indigenous Safety Strategies: Night Patrols & Policy. This project aims to identify the qualities that make Indigenous night patrols (NPs) unique, to inform and improve the capacities of agencies and regulatory authorities and indigenous communities to work together, leading to greater security, peace and safety. Crime and safety in Aboriginal communities remains a major concern. NPs, an Australian innovation developed by Aboriginal communities, have become key players in local crime reduction strategies, and carry the endorsement of both government and Aboriginal communities. However, they are operating in an environment of increased ‘top-down’ control and regulation. Does greater accountability to government weaken NP’s ‘cultural’ accountability to communities? This project explores the qualities that make NPs unique. This includes the prominent, and neglected, role of Indigenous women as patrollers and clients, who may lose out should NPs become like mainstream community safety mechanisms.Read moreRead less
Managing Hydrate Formation for Viable CO2 and Energy Transport. Increasing the allowable water content during the pipeline transportation of carbon dioxide (CO2) would greatly increase the viability of carbon capture and storage but would also increase the risk of CO2-hydrate blockages. Subsea methane (CH4) hydrate sediments represent a tremendous new energy resource if blockages in production pipelines can be avoided. Conventional oil industry approaches to hydrate avoidance are of limited rele ....Managing Hydrate Formation for Viable CO2 and Energy Transport. Increasing the allowable water content during the pipeline transportation of carbon dioxide (CO2) would greatly increase the viability of carbon capture and storage but would also increase the risk of CO2-hydrate blockages. Subsea methane (CH4) hydrate sediments represent a tremendous new energy resource if blockages in production pipelines can be avoided. Conventional oil industry approaches to hydrate avoidance are of limited relevance and too expensive for these new applications. Formation probability distributions, cohesive forces and agglomeration tendencies of CO2 and CH4 hydrates are intended to be measured and integrated into predictive multi-phase flow models, enabling quantitative risk assessments of blockages in CO2 transport or hydrate production pipelines.Read moreRead less
Functional characterisation of novel transport protein in plants. The products of plants provide the food we eat, the air we breath and it is recognised that they play an integral role in defining and protecting the environment. Thus it is essential to understand how plant work to allow their use in novel applications and to adapt to changing environments. Many aspects of plant metabolism are unique to plants and thus we cannot guess or estimate importance from studies in animals or fungi. Appro ....Functional characterisation of novel transport protein in plants. The products of plants provide the food we eat, the air we breath and it is recognised that they play an integral role in defining and protecting the environment. Thus it is essential to understand how plant work to allow their use in novel applications and to adapt to changing environments. Many aspects of plant metabolism are unique to plants and thus we cannot guess or estimate importance from studies in animals or fungi. Approximately 4,000 proteins are specific to plants, or contain domains that are unique to plants. This investigation proposes to elucidate the function of some of these novel proteins, transporters, that play a critical role in transport processes in cells.Read moreRead less
Functional genomics approaches to the mechanisms of starch mobilisation in Arabidopsis. Starch is a key carbon and energy reserve that underpins plant growth. This in turn underpins much of Australia's $60 billion agriculture industry. Starch also provides most of the calories in the human diet and is a renewable commodity supporting manufacturing industries. Dependence of society on starch will increase as it becomes used more for novel materials and for bio-ethanol production, which in turn w ....Functional genomics approaches to the mechanisms of starch mobilisation in Arabidopsis. Starch is a key carbon and energy reserve that underpins plant growth. This in turn underpins much of Australia's $60 billion agriculture industry. Starch also provides most of the calories in the human diet and is a renewable commodity supporting manufacturing industries. Dependence of society on starch will increase as it becomes used more for novel materials and for bio-ethanol production, which in turn will create new jobs in the rural economy. A major quality problem in cereal grain is pre-harvest starch breakdown caused by warm wet weather triggering events associated with germination. By understanding starch metabolism in plants we will be better able to manage and enhance growth of crop plants, starch production and seed quality.Read moreRead less
New carbon nanotube electrocatalysts for water splitting and fuel cells. The demand for clean, secure and sustainable energy sources has stimulated great interest in electrochemical energy storage and conversion technologies such as water splitting and fuel cells. The efficiency of water splitting and fuel cells is however strongly dependent on the activity of the electrocatalysts. The objective of the project is to develop new electrocatalysts based on the recently discovered phenomena that car ....New carbon nanotube electrocatalysts for water splitting and fuel cells. The demand for clean, secure and sustainable energy sources has stimulated great interest in electrochemical energy storage and conversion technologies such as water splitting and fuel cells. The efficiency of water splitting and fuel cells is however strongly dependent on the activity of the electrocatalysts. The objective of the project is to develop new electrocatalysts based on the recently discovered phenomena that carbon nanotubes with specific size and number of walls are very active and significantly promote the reaction of water splitting and fuel cells. The proposed project is expected to open a new research field in the development of new electrocatalysts and photoelectrocatalysts for advanced energy conversion and storage technologies.Read moreRead less