Grants & Opportunities

Electronic-vibrational spectroscopy: A new probe for structure and function. This project aims to solve a major challenge in ultrafast spectroscopy: to identify and quantify competing reaction pathways in complex photochemical systems. Ultrafast Spectroscopy provides information on excited-state processes of photochemical reactions, however, unravelling heterogeneous systems with competing parallel processes remains difficult. Multidimensional electronic-vibrational spectroscopy, sensitive to electronic dynamics and molecular structure, is expected to overcome this barrier. This new level of detail will profoundly enhance our understanding of energy and chemical conversion in complex systems and will reveal design targets for optimising next-generation light-energy harvesting, conducting, and emitting materials.. Scheme: ARC Future Fellowships. Field: 0306 - Physical Chemistry (Incl. Structural). Lead: Dr Christopher Hall

Advances in data integration modelling for infectious disease response. This project aims to develop powerful mathematical frameworks that integrate data from multiple sources to facilitate informed decisions in response to the threat of present, and future, infectious diseases. The project expects to generate new knowledge in mathematics by advancing the tools for incorporating multiple data sources into models of infectious diseases. The expected outcomes include enhanced capacity to predict spatiotemporal changes in transmission of infectious diseases. This project should provide significant benefits in the advancement of modelling techniques broadly applicable to infectious disease settings, which will be demonstrated for antimalarial drug resistance – a major threat to malaria elimination. . Scheme: ARC Future Fellowships. Field: 0102 - Applied Mathematics. Lead: Prof Jennifer Flegg

Kids, bugs and drugs: Human-microbial relations in everyday family life. This project aims to investigate human-microbial relations in everyday family life within the context of escalating Antimicrobial Resistance (AMR). While AMR is widely recognised as a potentially catastrophic global health threat, antimicrobials still feature prominently in families’ daily attempts to care for their health. Using innovative qualitative methods, this project expects to generate better understandings of how human-(anti)microbial relations are understood and negotiated in community settings in daily life. Expected outcomes include new knowledge in the field of health sociology and a crucial evidence base that will yield significant benefit by informing and enabling community-centred responses to the growing AMR threat.. Scheme: Discovery Early Career Researcher Award. Field: 1608 - Sociology. Lead: A/Prof Katherine Kenny

Quantifying trophic niches to measure the resilience of marine predators. This project aims to pair global movement with feeding ecology datasets to characterise relationships between space use and diet breadth, and tests the effects of marine industries on functional roles of marine predators. This expects to generate knowledge about population and individual specalisation using innovative biochemical approaches and shark’s unique dental anatomy. Expected outcomes include a biochemical database facilitating global collaborations, and a vulnerability scale to rank resilience to impacts based on relative specalisation. This should benefit managers by accounting for previously unknown effects of marine industries on specialists at elevated extinction risk, with limited resilience to local impacts and global change.. Scheme: Discovery Early Career Researcher Award. Field: 0602 - Ecology. Lead: Dr Lauren Meyer

Protecting prey from predators using sensory tactics. This project aims to develop new approaches to prevent the extinction of threatened native species from invasive predators, such as rats, pigs, cats and foxes. Many native species are hard to see but vulnerable to being found by predators with powerful senses of smell and hearing. By harnessing the sensory cues of prey that predators use when hunting, this project expects to discover olfactory and auditory techniques that prevent predators finding threatened species. In doing so, the project intends to provide new perspectives on how animals find food using multiple senses, and lead the recovery of threatened species in areas where predators remain within Australia and globally. . Scheme: Discovery Early Career Researcher Award. Field: 0502 - Environmental Science and Management. Lead: Dr Catherine Price

Charitable triad: How donors, beneficiaries, & fundraisers influence giving. This project aims to test a new model of charitable giving to examine how donors, beneficiaries, and fundraisers together influence donor decisions. Until now, no holistic model has existed to explain donor behaviour: past research has focused on donors but neglected beneficiaries and fundraisers. This project is expected to provide evidence for a new bedrock theory of philanthropy. Findings can also inform practitioner toolkits, offering advice to nonprofits on how to raise money effectively by understanding how the particular organisation and its beneficiaries can influence donor decisions. By helping ensure the survival of charities, this research will contribute to the delivery of essential social services that benefit many Australians.. Scheme: Discovery Early Career Researcher Award. Field: 1701 - Psychology. Lead: A/Prof Cassandra Chapman

Applying ecologically valid approaches to social cognitive ageing. Social functioning is a critical predictor of wellbeing, particularly in older age. This project aims to investigate how important social cognitive capacities, that lay the foundation for effective social functioning, are impacted by normal adult ageing. This project will use cutting edge experimental techniques to investigate, for the first time, how ageing alters our capacity to visually attend and understand emotional information in others during real time social interactions, both in and out of the laboratory. Expected outcomes include new knowledge of how older adults navigate social interactions, with potential to lay a foundation for improving social wellbeing in older Australians.. Scheme: Discovery Early Career Researcher Award. Field: 1701 - Psychology. Lead: Dr Sarah Grainger

Next generation Floating Structures with High-Performance Composites. Floating structures are facing severe deterioration problem due to steel corrosion. This project proposes to address the deterioration problem by developing prefabricated high-performance fibre-reinforced polymer (FRP)-ultra-high performance cementitious (UHPC) composite elements for future floating structures. FRP-UHPC composite elements have excellent strength-to-weight ratio and improved durability. Basic mechanical properties and durability of FRP-UHPC composites will be investigated. Also, reliable connection device for FRP-UHPC structural units will be proposed and verified. The project is expected to provide durable floating structures with low maintenance cost, leading to a revolution of the current floating structures.. Scheme: Discovery Early Career Researcher Award. Field: 0905 - Civil Engineering. Lead: Dr Jun-Jie Zeng

Defining how gut bacteria regulate metabolism: a role for gut serotonin. This project aims to understand how serotonin-producing cells in the gut interact with gut bacteria (the microbiome), using a combination of cells in culture and live germ-free and genetically modified mice. This project expects to generate new knowledge regarding cellular interactions that underlie important physiological pathways, such as the control of blood glucose and fat storage. The intended outcomes of this project are to identify how gut bacteria communicate with serotonin-producing cells to regulate metabolism, and whether diet acts via a gut microbiome-serotonin axis to impact physiology. The expected benefit of this project will be to provide a new understanding of highly complex physiological systems that regulate our health.. Scheme: Discovery Early Career Researcher Award. Field: 1116 - Medical Physiology. Lead: Dr Alyce Martin

A long-lasting interface for communicating with the brain. This project aims to address the most urgent challenges in developing the next generation of implantable devices for communicating with the brain. Using a new type of carbon-based electrode, along with light therapy, this project expects to build innovative technologies that can greatly enhance the functionality and longevity of these devices. Expected outcomes include a novel tool that can be implemented to obtain detailed insights into neural circuits, advancing our understanding of neural function and pioneering feedback and closed-loop neuroscience. This project should provide significant benefits in neuroscience research and the neural interface industry, both of which have the ultimate goal to unlock the mysteries of the brain.. Scheme: Discovery Early Career Researcher Award. Field: 0903 - Biomedical Engineering. Lead: Dr Wei Tong

Caring for Cosmologies: Making Living Maps for West Miyarrka. This project aims to develop a new kind of digital mapping to document endangered forms of knowledge along a coastline under threat from climate change. The project expects to draw on unique Yolngu knowledge practices and representational systems - with traditional owners and managers guiding digital media experts, rangers and artists. Expected outcomes include: 1) expanded Indigenous research capacities and digital expertise; and, 2) access to novel resources for a new generation of Indigenous leaders. Benefits include: enhanced intergenerational and intercultural knowledge transmission and negotiation; methods adaptable to other Indigenous contexts; and greater national recognition of Indigenous seeing and caring for country.. Scheme: Discovery Indigenous. Field: 0502 - Environmental Science and Management. Lead: Ms Enid Wunungmurra

Making Australia resilient to airborne infection transmission. The COVID-19 pandemic demonstrated that basic questions regarding how to minimise the risk of airborne infection transmission for any respiratory viruses remain unanswered, despite their frequency and huge social and economic costs. Therefore, this project aims to expand scientific knowledge and develop practical tools to improve the resilience of Australian indoor environments against airborne transmission of respiratory viruses. The outcomes of the project conducted by a multidisciplinary international team of collaborators will include: (i) quantitative knowledge on virus-laden aerosols from human expiration; and (ii) exposure and infection risk models and their application to typical indoor building and transport scenarios.. Scheme: Linkage Projects. Field: 1117 - Public Health and Health Services. Lead: Prof Lidia Morawska

Localised fast radio bursts as new probes of cosmology. This project aims to utilise fast radio bursts to study observationally the structure of the Universe in an entirely new way, and potentially investigate the era in which the first stars were formed. This project utilises the e-MERLIN and LBA telescopes along with other multi-wavelength facilities in the world to unveil the engines driving fast radio bursts and also pinpoint their host galaxies. The research should result in the use of fast radio bursts as new cosmological probes, complementary to supernovae and galaxies. It also aims to lead to a better understanding of the extragalactic/intergalactic media, and greater public engagement in science by incorporating this phenomenon into a comprehensive public outreach programme.. Scheme: Discovery Early Career Researcher Award. Field: 0201 - Astronomical and Space Sciences. Lead: Dr Manisha Caleb

Sustaining intensive agriculture through droughts and floods. This project aims to develop state-of-the-art conceptual and numerical models of river-soil-groundwater interactions to address complex and persistent questions on water sustainability in the Lower Burdekin Delta, Queensland, where groundwater pumping to irrigate sugarcane has been supplemented by artificial recharge for over 50 years. This project expects to deliver new knowledge of critical aquifer processes to inform the scheme operation, the largest in the country. Expected outcomes include ground-breaking management plans for the aquifer-replenishment scheme. Anticipated benefits involve balancing the needs of agriculture and the protection of pristine environments, including groundwater discharge to the Great Barrier Reef. . Scheme: Linkage Projects. Field: 0406 - Physical Geography and Environmental Geoscience. Lead: Prof Adrian Werner

Fabrication of silicon solar cells in a Lunar-like vacuum environment. In-situ power generation on the Moon is essential for the advancement of space exploration and habitation. At present this involves transportation of solar cells to the Moon. This proposal aims to pave the way for manufacture of solar cells on the Moon from Lunar materials. Utilising the future extraction and purification of silicon, abundant in lunar regolith, the project will focus on fabrication of silicon solar cells. This will provide power for: water mining, oxygen extraction, vehicles and habitats on the Moon and delivery of materials to Low Earth Orbit. The proposed research aims to develop solar cells that can be manufactured on the Moon, using materials abundant there, and techniques exploiting the natural vacuum of space.. Scheme: Linkage Projects. Field: 0906 - Electrical and Electronic Engineering. Lead: Prof Gavin Conibeer

Beyond the limits of corrosion detection in inaccessible areas. The project will develop a new technology for medium-range corrosion mapping in inaccessible areas of infrastructure. This will overcome the limitations of existing corrosion inspection techniques for corrosion inspection at inaccessible areas. The project will create a new concept and generate new knowledge on accurate corrosion mapping in inaccessible areas. The expected outcomes are significant improvements in the capability and practicability over existing corrosion inspection technologies adopted by industry for a wide range of infrastructure, in particular the Oil and Gas, Mining, Energy and Water infrastructure, as well as improving the reliability and cost-efficiency of the corrosion inspection.. Scheme: Linkage Projects. Field: 0905 - Civil Engineering. Lead: Prof Ching Tai Ng

Transfer Learning for Genome Analysis and Personalised Recommendation. This project aims to improve the accuracy, adaptability, and comprehensiveness of health characteristic predictions and provide personalised recommendations for healthcare service and disease prevention. The deliverables include uncertainty learning and multi-source transfer learning methodologies for predictions based on genome analysis that distils and transfers useful knowledge from multiple sources into an Australian genome analysis model. A federated cross-domain recommender system will be developed to profile individuals and generate personalised recommendations. The outcomes are expected to create a paradigm shift in learning-based prediction and personalised recommendations to support healthcare services in complex environments. . Scheme: Linkage Projects. Field: 0801 - Artificial Intelligence and Image Processing. Lead: Prof Jie Lu

Wideband Silicon-Based Radio-Frequency Front-End Module for 5G New Radio . The project aims to advance knowledge in radio-frequency integrated circuit design in low-cost silicon technologies, particularly power amplifiers design with enhanced energy efficiency at output power back-off levels. The intended outcome of this project will be a wideband RF front-end module with beam steering capability that can cover the 24-50 GHz spectrum band. This will ultimately enable the creation of a low-cost and energy-efficient 5G millimetre-wave network that could potentially trigger the development of ultra-reliable low latency communications, which is critical for emerging intelligent transportation systems and will maintain Australia’s leadership position in the development of break-through wireless technology.. Scheme: Linkage Projects. Field: 0906 - Electrical and Electronic Engineering. Lead: Dr Xi (Forest) Zhu

Robust and Scalable Autonomous Landing for Drones. The aim of this project is to develop a transformative robust and scalable autonomous landing system for drones. This is the critical missing technology needed to unleash exponential growth in a potentially enormous drone delivery industry by enabling a multitude of applications to deliver goods and supplies via drones to a wide range of destinations in Australia and the world in a timely, flexible and accurate manner. Such an autonomous landing solution would revolutionise drone technology, and propel Australia to the forefront of technology innovation. This project would benefit not only large scale delivery by drone in urban and suburban areas of Australia but also long distance delivery via drone to remote areas of Australia.. Scheme: Linkage Projects. Field: 0805 - Distributed Computing. Lead: Prof Richard Han

New Lead-Free Brass Solutions for Drinking Water Applications. The aim of this Linkage Project is to provide viable material solutions to address the health problem of Lead-contamination in drinking water arising from Leaded-brass plumbing products and the impact Lead-removal from brass will have on the brass industry. In order to achieve this, this project engages leading multidisciplinary researchers along with Australian and international industry partners from across the brass industry supply and sales network. This project seeks to identify and harness the key material-product attributes required to develop and implement new, lead-free alloy alternatives that meet health-compliance, production and commercial viability, that offer benefits across the industry network and health benefits to society.. Scheme: Linkage Projects. Field: 0910 - Manufacturing Engineering. Lead: A/Prof Kevin Laws

Novel governance for marine ecosystems in rapid transition. This project will develop the governance knowledge required to manage rapidly changing marine ecosystems. Australia has the third largest marine estate globally, and its ecosystems support critical economic and sociocultural values. However, human pressures are tipping marine ecosystems into alternate states, inspiring new interventions to sustain industries and communities. New interventions necessitate transitions in governance. Expected outcomes include a comparative understanding of novel marine interventions now underway globally, and practical guidance on how to diagnose and implement responsible marine governance. Significant benefits include enhanced governance and sustainability of Australian and international marine ecosystems.. Scheme: Discovery Projects. Field: 0502 - Environmental Science and Management. Lead: Prof Tiffany Morrison

Elliptical nozzles: the shape of silence? This project aims to leverage the aeroacoustic properties of elliptical nozzle geometries to significantly reduce installed jet noise. This project expects to generate new knowledge regarding methods to reduce installed jet noise, a serious problem for the aerospace industry. Regulatory constraints inhibit the implementation of efficiency-increasing configurations but still fail to eliminate public health impacts. Expected outcomes include a set of tools for optimizing nozzle designs capable of significantly reducing installed jet noise. This will provide significant benefits, as jet noise is a serious health issue for the Australian public. This project represents an opportunity to reduce its impact while improving fuel efficiency.. Scheme: Discovery Projects. Field: 0915 - Interdisciplinary Engineering. Lead: A/Prof Daniel Edgington-Mitchell

Inequality, Prosperity and the Australian Welfare State. This project aims to clarify contested understandings of Australian inequality and the role of economic and social policies in addressing policy challenges going forward. The objective of the project is to generate significantly improved knowledge of inequality in Australia using innovative approaches of data splicing, decomposition, simulation and backcasting to fill research gaps and resolve contested interpretations. We aim to provide a benchmark and robust framework against which policy development after the current crisis can be evaluated. This project aims to provide significant benefits, keeping Australia at the forefront of research on inequality and public policy, strengthening links between researchers and policy makers. . Scheme: Discovery Projects. Field: 1605 - Policy and Administration. Lead: Prof Peter Whiteford

Metal Halide Perovskite Spin-Orbit Torque Devices. This project aims to demonstrate a new, highly efficient spin-based electronic device by developing a fundamental understanding into the generation and transport of spin in metal halide perovskite based heterostructures. Using an interdisciplinary approach, this project expects to exploit the beneficial spin properties, low cost and scalable production methods of metal halide perovskites. It is expected that this project will deliver new functionality to these emerging materials to enable their application in highly efficient spintronic devices. These outcomes should provide significant benefits to the Australian advanced manufacturing sector by developing new knowledge, advanced technology and training skilled professionals.. Scheme: Discovery Projects. Field: 0204 - Condensed Matter Physics. Lead: Prof Jacek Jasieniak

Directionality-Aware Cohesive Subgraph Search over Directed Graphs. Searching cohesive subgraphs around a set of user-specified seed vertices in big graphs has many applications including cybersecurity, crime detection, social marketing and public health. This project aims to investigate directionality-aware search of cohesive subgraphs over directed graphs by designing effective models and developing efficient and scalable algorithms. This project expects to address key challenges and lay scientific foundations for searching big directed graphs. The expected outcomes include novel models, computing paradigms, algorithms, indexing techniques, and distributed solutions. The success of the project will not only provide technological breakthroughs but also benefit the development of key industries in Australia. Scheme: Discovery Projects. Field: 0806 - Information Systems. Lead: A/Prof Lijun Chang