Making plants better, making Australia better? A history of genetic modification science, policy, and community attitudes in Australia. This project will document and analyse the history of the development of genetic modification (GM) science and policy, and the associated community attitudes and activism efforts in Australia over the last 40 years, with a focus on the development of GM for food and agricultural purposes. In addition to producing a rich historical narrative of critical scientifi ....Making plants better, making Australia better? A history of genetic modification science, policy, and community attitudes in Australia. This project will document and analyse the history of the development of genetic modification (GM) science and policy, and the associated community attitudes and activism efforts in Australia over the last 40 years, with a focus on the development of GM for food and agricultural purposes. In addition to producing a rich historical narrative of critical scientific and policy developments associated with GM in Australia. This project will explore how Australians respond to new scientific ideas and technologies, and use this evidence as the basis for a case study of prospects for future community involvement in the development of science policy particularly in association with emerging technologies.Read moreRead less
Organisms and Us: How Living Things Help Us To Understand Our World. How do researchers learn from and 'think with' non-human organisms? This project seeks to develop a comprehensive historical and philosophical exploration of the changing roles and understandings of research with organisms in 20th and early 21st century science. Advances in the content and technologies of the biological and biomedical sciences have resulted in new understandings of what we can know and learn from organisms, par ....Organisms and Us: How Living Things Help Us To Understand Our World. How do researchers learn from and 'think with' non-human organisms? This project seeks to develop a comprehensive historical and philosophical exploration of the changing roles and understandings of research with organisms in 20th and early 21st century science. Advances in the content and technologies of the biological and biomedical sciences have resulted in new understandings of what we can know and learn from organisms, particularly with regard to human functioning, health, and well-being, yet we have no integrated scholarship examining these developments across a range of fields. This project seeks to produce useful scholarship relevant for humanities scholars, scientists, clinicians and policy-makers.Read moreRead less
Philosophical perspectives on psychedelic psychiatry. This project aims to develop a multi-level integrated theory of self-representation and self-awareness that explains the effects of psychedelic therapy in particular, and transformative experience in general. Psychedelic drugs can produce lasting psychotherapeutic benefits. The mechanism is a dramatic but temporary alteration to the ordinary sense of self, known as “ego dissolution”. However, fundamental questions about self-representation an ....Philosophical perspectives on psychedelic psychiatry. This project aims to develop a multi-level integrated theory of self-representation and self-awareness that explains the effects of psychedelic therapy in particular, and transformative experience in general. Psychedelic drugs can produce lasting psychotherapeutic benefits. The mechanism is a dramatic but temporary alteration to the ordinary sense of self, known as “ego dissolution”. However, fundamental questions about self-representation and its neural and cognitive implementation remain unresolved. In order to explain ego dissolution and its therapeutic effects, this project aims to integrate two theoretical approaches to self-representation situated at the intersection of philosophy and cognitive neuroscience, the predictive coding theory of brain function and the self-binding theory of self-representation. Such a framework has potential to anchor further interdisciplinary research and practical intervention in disorders of the self.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE130100168
Funder
Australian Research Council
Funding Amount
$1,235,000.00
Summary
Adelaide Nuclear Magnetic Resonance (NMR). Nuclear Magnetic Resonance (NMR) spectroscopy is a fundamental underpinning technology for the advancement of the many sciences which require determination of the structure of molecules. This project will significantly enhance and broaden NMR capabilities in South Australia and advance world-class research in chemistry, materials science, nanotechnology and biochemistry.
An account of wetting phenomena on nano-engineered surfaces. This project aims to provide researchers and industry with a toolbox to predict wetting behaviour on surfaces with nanoscale topography. A combined experimental and numerical study will lead to the discovery of the mechanisms by which topographical and chemical properties of the surface trigger the formation of nanostructure-induced air pockets and how these phenomena determine surface wettability. This will provide significant benefi ....An account of wetting phenomena on nano-engineered surfaces. This project aims to provide researchers and industry with a toolbox to predict wetting behaviour on surfaces with nanoscale topography. A combined experimental and numerical study will lead to the discovery of the mechanisms by which topographical and chemical properties of the surface trigger the formation of nanostructure-induced air pockets and how these phenomena determine surface wettability. This will provide significant benefits, as the predictive surface-wettability model will enhance controllability and productivity of diverse manufacturing processes and lead to new applications, high-value products and economic benefits in mining, energy, electronics, biomedicine and other fields.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE140100087
Funder
Australian Research Council
Funding Amount
$410,000.00
Summary
Advanced Macromolecular Materials Characterisation Facility (AMMCF). Advanced macromolecular materials characterisation facility: The facility will allow precise characterisation of (bio)macromolecular materials, from chemical structures and composition as a function of size or biodistribution, to film thickness in multi-layer materials, to material hydrophobicity and permeability. Novel information derived from these state-of-the-art instruments is highly valuable in understanding structure-pro ....Advanced Macromolecular Materials Characterisation Facility (AMMCF). Advanced macromolecular materials characterisation facility: The facility will allow precise characterisation of (bio)macromolecular materials, from chemical structures and composition as a function of size or biodistribution, to film thickness in multi-layer materials, to material hydrophobicity and permeability. Novel information derived from these state-of-the-art instruments is highly valuable in understanding structure-property relationships, which are crucial for the development of the next generation of advanced materials with applications in electronics, optics, sensors, membranes, nanocoatings, biomaterials and polymer therapeutics. This facility underpins the efforts of the participating institutes in increasing the quality and quantity of research outcomes.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE160100306
Funder
Australian Research Council
Funding Amount
$373,536.00
Summary
Functional Superstructures of Microporous Metal-Organic Frameworks. This project aims to develop metal-organic framework (MOF) superstructures as a new materials platform. MOFs are an emerging class of porous adsorbents that are expected to fulfil a crucial role as functional materials in industrially important applications, including molecular separations and heterogeneous catalysis. However, there is an urgent need for convenient methods to integrate the attractive properties of MOFs with the ....Functional Superstructures of Microporous Metal-Organic Frameworks. This project aims to develop metal-organic framework (MOF) superstructures as a new materials platform. MOFs are an emerging class of porous adsorbents that are expected to fulfil a crucial role as functional materials in industrially important applications, including molecular separations and heterogeneous catalysis. However, there is an urgent need for convenient methods to integrate the attractive properties of MOFs with the unique features of meso- and macrostructured materials, and for a fundamental understanding of the influence of structuring on their material properties. The project intends to synthesise structuralised MOFs as a platform for studies related to their adsorptive and dynamic properties, and to study these systems as next-generation materials for hydrocarbon separations.Read moreRead less
Situating care: Addressing obesity in disadvantaged communities . The project aims to drive an urgently needed shift from top-down interventions that focus on obesity as an individual problem of diets and exercise, to collective solutions of care generated by families for families, empowering social change at a local, community level. In collaboration with Australia’s leading designers of social innovation, this anthropology project expects to generate new knowledge about care and food practic ....Situating care: Addressing obesity in disadvantaged communities . The project aims to drive an urgently needed shift from top-down interventions that focus on obesity as an individual problem of diets and exercise, to collective solutions of care generated by families for families, empowering social change at a local, community level. In collaboration with Australia’s leading designers of social innovation, this anthropology project expects to generate new knowledge about care and food practices in disadvantaged communities, and to construct new digital, policy, and program frameworks for broader adaptation. The advances are likely to have a strong bearing on how obesity interventions, and more equitable health policy and practice, evolve in Australia and internationally. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE230100022
Funder
Australian Research Council
Funding Amount
$435,298.00
Summary
Investigating neuronal oscillations and motor function in older adults. . This project aims to identify changes in brain function that contribute to age-related reductions in movement control. By implementing a novel, multimodal approach involving cutting edge non-invasive brain stimulation, this project expects to identify the causal role of brain oscillations in the ability of older adults to learn new motor skills. Expected outcomes include a critical understanding of the basic neural mechani ....Investigating neuronal oscillations and motor function in older adults. . This project aims to identify changes in brain function that contribute to age-related reductions in movement control. By implementing a novel, multimodal approach involving cutting edge non-invasive brain stimulation, this project expects to identify the causal role of brain oscillations in the ability of older adults to learn new motor skills. Expected outcomes include a critical understanding of the basic neural mechanisms that contribute to altered motor function during healthy ageing. These outcomes will provide significant benefits, including important neurophysiological insight that is required to develop targeted interventions aimed at improving movement in older adults. Read moreRead less
Nanofluid stickiness will transform the Energy and Biotechnology Industries. This project aims to determine how minuscule particles behave on surfaces with different nano-architecture. Modern technologies already use nanodecorated materials to lubricate engines or capture tumour cells. Yet, their potential in applications for sustainable catalysis, gas treatment or water splitting cannot be realised until we understand how nano-objects adsorb to surfaces with features of comparable size. The exp ....Nanofluid stickiness will transform the Energy and Biotechnology Industries. This project aims to determine how minuscule particles behave on surfaces with different nano-architecture. Modern technologies already use nanodecorated materials to lubricate engines or capture tumour cells. Yet, their potential in applications for sustainable catalysis, gas treatment or water splitting cannot be realised until we understand how nano-objects adsorb to surfaces with features of comparable size. The expected outcomes include new methods, models and a workable map of protein adsorption allowing us to 1) create advanced substrates for targeted applications and 2) understand existing phenomenon governed by naturally occurring nanoroughness. It will benefit manufacturing in fields ranging from biology to energy production.Read moreRead less