ADELAIDE UNIVERSITY

university

Total disclosed

$570,419,502

Award count

648

Distinct programs

First → last award

2019 → 2031

Disclosed awards

Showing 376–400 of 648. Public data only — SR&ED tax credits are confidential and not shown.

Rebalancing sex hormone signalling in the breast ecosystem to reduce...$1,484,841
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Rebalancing sex hormone signalling in the breast ecosystem to reduce... Category: Medical Research
A functionalised surface device for spermatozoa selection in assisted...$860,580
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
A functionalised surface device for spermatozoa selection in assisted... Category: Medical Research
A functionalised surface device for spermatozoa selection in assisted...$233,759
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
A functionalised surface device for spermatozoa selection in assisted... Category: Medical Research
A functionalised surface device for spermatozoa selection in assisted...$860,580
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
A functionalised surface device for spermatozoa selection in assisted... Category: Medical Research
(untitled award)$1,232,555
ARC National Competitive Grants · FY 2025 · 2025-01
Transforming terahertz technology with purpose-built integrated platform. This Fellowship aims to create terahertz integrated systems that transcend decades-old free-space setups. The research harnesses recent Australian-led innovations in a substrateless silicon platform to deliver transformative terahertz frontends. Next-generation optically controlled terahertz modulators will be realised, while broadband peripheral components aided by effective mediums will enable complex terahertz wave routing. Addressing current bottlenecks, this project will drive unprecedented point-to-point terahertz wireless links with record data rates over several kilometres. Longer term, the project will open up new research in high-performance terahertz integration for future 6G infrastructure and advanced stand-off sensing. Field of research: 4006 - Communications Engineering The terahertz electromagnetic band, spanning 100 GHz to 10 THz, holds tremendous promise for future data transmission and sensing technology. However, the lack of terahertz-specific integrated platforms is a key bottleneck for practical uptake across diverse uses. This project will establish critical new knowledge, including design principles for advanced terahertz integrated components, leveraging our Australian-developed high-efficiency terahertz integrated platform. This will initiate a new research direction in terahertz integrated circuits, akin to millimetre-wave and photonic integrated circuits that have spawned billion-dollar industries. Our unique, next-generation platform will enable terahertz point-to-point wireless transmission at terabit-per-second data rates with very low delays – a key capability in high-speed wireless technology anticipated by 2030 for inter-satellite links and between cell towers. It would also underpin emerging global demand in other terahertz applications such as hands-off security screening and non-invasive biomedical imaging, where the global market is estimated to reach US$3 billion in 2030. Further economic benefits will flow from Intellectual Property and specialised workforce creation. Outcomes will be promoted widely via media releases and future industry investment will be sought for research translation. Rapid uptake of the technology will be ensured by attendance at relevant industry trade-shows and expos.
(untitled award)$441,892
ARC National Competitive Grants · FY 2025 · 2025-01
Unlocking Australia’s hydrogen industry through large-scale salt caverns. This project evaluates Australia’s ancient salt deposits to identify optimal sites for underground Hydrogen storage. Salt caverns are the most cost-effective solution for this purpose, making it essential to characterise the sedimentology and structural geology of these deposits thoroughly. The project aims to optimise salt cavern sites in areas with limited geological data by employing an interdisciplinary approach using outcrop analogues from South Australia and the Northern Territory as inputs for novel physical and geophysical modelling. This innovative strategy will minimise Hydrogen leakage, enhance safety, and support Australia’s ambitions to become a key player in the global Hydrogen market. Field of research: 3705 - Geology Hydrogen generation and storage is considered a significant energy replacement for fossil fuels in Australia. However, due to its small molecule size, hydrogen is notoriously difficult to store. Underground salt caverns have been proposed as viable large-scale storage facilities for collected Hydrogen. Knowledge gaps exist in understanding the geological conditions and predicting optimal settings for hydrogen storage. Thus, a pressing need exists to combine traditional field data with innovative geological tools to identify suitable conditions for salt cavern development. In collaboration with industry partners, namely Woodside Energy, this project will model the geological criteria needed to realise this goal. The ability to store vast amounts of Hydrogen fuel will benefit Australia immensely in combating climate change and facilitating the transition to a low-carbon future. Growth in hydrogen storage infrastructure is expected to stimulate economic development and job creation domestically and globally, promoting broader adoption across the Australian landscape. Outputs from this fellowship will be translated through regular workshops, round tables, and reports directly serving hydrogen storage pilots and projects across SA, the NT, and globally. That translation will be available to industry partners and the broader public, especially those driving growth and maintaining hydrogen hubs. Further promotion will be done through industry tradeshows and Expos.
(untitled award)$995,188
ARC National Competitive Grants · FY 2025 · 2025-01
Habitability and resources: evolution of Earth’s silicate weathering system. The Earth's weathering system is the primary stabiliser of climate, inspiring geoengineering efforts to increase carbon dioxide (CO2) removal. A poorly known competing process, known as reverse weathering (RW), releases CO2 during marine authigenic clay formation. This potentially critical component of the carbon cycle remains largely unquantified. This research aims to employ new geochemical and geological tools to reveal, for the first time, how and why the extent of RW has changed over the past 1600 Ma. Expected outcomes will include improved constraints on i) the consequences of RW for CO2 removal via artificially enhanced weathering, and ii) the role that RW reactions play in the formation of marine critical mineral deposits. Field of research: 3799 - Other Earth Sciences Weathering of rocks and minerals consumes carbon dioxide and acts to stabilise Earth’s climate, inspiring attempts to increase carbon dioxide removal via artificially enhanced rock weathering. An important unknown is to what extent ‘reverse weathering’ reactions, which release carbon dioxide back to the atmosphere, counteract the effects of weathering and complicate climate mitigation efforts. These reactions also play a potentially important but poorly understood role in the formation of mineral deposits. This project fills this knowledge gap, building on Australian-led innovation to reconstruct the evolution of Earth’s weathering system over the past 1600 million years. A combination of new tools will reveal, for the first time, how and why the prevalence of reverse weathering has changed over time. Together with targeted case studies, this will identify how reverse weathering i) impacts on the carbon dioxide-removal efficiency of artificially enhanced rock weathering, and ii) contributes to the formation of mineral deposits that are essential for a low carbon economy. This work will provide new knowledge on the weathering system, inform geoengineering options to mitigate climate change and provide economic benefits by guiding Australian explorers searching for critical mineral deposits.Results will be disseminated to academic, industry and public sector stakeholders via tailored workshops, public presentations as well as print and digital media.
Reducing alcohol consumption through the sober curious movement$875,819
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Reducing alcohol consumption through the sober curious movement Category: Medical Research
Reducing alcohol consumption through the sober curious movement$875,819
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Reducing alcohol consumption through the sober curious movement Category: Medical Research
PRO-RUST therapy to trigger prostate cancer ferroptosis$1,220,784
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
PRO-RUST therapy to trigger prostate cancer ferroptosis Category: Medical Research
PRO-RUST therapy to trigger prostate cancer ferroptosis$204,005
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
PRO-RUST therapy to trigger prostate cancer ferroptosis Category: Medical Research
PRO-RUST therapy to trigger prostate cancer ferroptosis$1,220,784
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
PRO-RUST therapy to trigger prostate cancer ferroptosis Category: Medical Research
Recurrent Miscarriage "“ defining clinical subtypes based on...$1,736,037
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Recurrent Miscarriage "“ defining clinical subtypes based on... Category: Medical Research
Recurrent Miscarriage "“ defining clinical subtypes based on...$328,961
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Recurrent Miscarriage "“ defining clinical subtypes based on... Category: Medical Research
Recurrent Miscarriage "“ defining clinical subtypes based on...$1,736,037
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Recurrent Miscarriage "“ defining clinical subtypes based on... Category: Medical Research
The novel role of protease-driven ectodomain shedding in small cell lung...$1,104,072
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
The novel role of protease-driven ectodomain shedding in small cell lung... Category: Medical Research
The novel role of protease-driven ectodomain shedding in small cell lung...$280,835
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
The novel role of protease-driven ectodomain shedding in small cell lung... Category: Medical Research
The novel role of protease-driven ectodomain shedding in small cell lung...$1,104,072
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
The novel role of protease-driven ectodomain shedding in small cell lung... Category: Medical Research
Exploring new anti-apoptotic roles of intracrine VEGF in cartilage...$1,180,525
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Exploring new anti-apoptotic roles of intracrine VEGF in cartilage... Category: Medical Research
Exploring new anti-apoptotic roles of intracrine VEGF in cartilage...$310,678
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Exploring new anti-apoptotic roles of intracrine VEGF in cartilage... Category: Medical Research
Exploring new anti-apoptotic roles of intracrine VEGF in cartilage...$1,180,525
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Exploring new anti-apoptotic roles of intracrine VEGF in cartilage... Category: Medical Research
A novel precision medicine approach for chronic suppurative otitis media$2,094,153
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
A novel precision medicine approach for chronic suppurative otitis media Category: Medical Research
A novel precision medicine approach for chronic suppurative otitis media$413,159
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
A novel precision medicine approach for chronic suppurative otitis media Category: Medical Research
A novel precision medicine approach for chronic suppurative otitis media$2,094,153
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
A novel precision medicine approach for chronic suppurative otitis media Category: Medical Research
Maturing the preterm lung without damaging the brain$2,422,587
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Maturing the preterm lung without damaging the brain Category: Medical Research

← back to results

ADELAIDE UNIVERSITY

university

Total disclosed

$570,419,502

Award count

648

Distinct programs

First → last award

2019 → 2031

Disclosed awards

Showing 376–400 of 648. Public data only — SR&ED tax credits are confidential and not shown.

Rebalancing sex hormone signalling in the breast ecosystem to reduce...$1,484,841
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Rebalancing sex hormone signalling in the breast ecosystem to reduce... Category: Medical Research
A functionalised surface device for spermatozoa selection in assisted...$860,580
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
A functionalised surface device for spermatozoa selection in assisted... Category: Medical Research
A functionalised surface device for spermatozoa selection in assisted...$233,759
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
A functionalised surface device for spermatozoa selection in assisted... Category: Medical Research
A functionalised surface device for spermatozoa selection in assisted...$860,580
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
A functionalised surface device for spermatozoa selection in assisted... Category: Medical Research
(untitled award)$1,232,555
ARC National Competitive Grants · FY 2025 · 2025-01
Transforming terahertz technology with purpose-built integrated platform. This Fellowship aims to create terahertz integrated systems that transcend decades-old free-space setups. The research harnesses recent Australian-led innovations in a substrateless silicon platform to deliver transformative terahertz frontends. Next-generation optically controlled terahertz modulators will be realised, while broadband peripheral components aided by effective mediums will enable complex terahertz wave routing. Addressing current bottlenecks, this project will drive unprecedented point-to-point terahertz wireless links with record data rates over several kilometres. Longer term, the project will open up new research in high-performance terahertz integration for future 6G infrastructure and advanced stand-off sensing. Field of research: 4006 - Communications Engineering The terahertz electromagnetic band, spanning 100 GHz to 10 THz, holds tremendous promise for future data transmission and sensing technology. However, the lack of terahertz-specific integrated platforms is a key bottleneck for practical uptake across diverse uses. This project will establish critical new knowledge, including design principles for advanced terahertz integrated components, leveraging our Australian-developed high-efficiency terahertz integrated platform. This will initiate a new research direction in terahertz integrated circuits, akin to millimetre-wave and photonic integrated circuits that have spawned billion-dollar industries. Our unique, next-generation platform will enable terahertz point-to-point wireless transmission at terabit-per-second data rates with very low delays – a key capability in high-speed wireless technology anticipated by 2030 for inter-satellite links and between cell towers. It would also underpin emerging global demand in other terahertz applications such as hands-off security screening and non-invasive biomedical imaging, where the global market is estimated to reach US$3 billion in 2030. Further economic benefits will flow from Intellectual Property and specialised workforce creation. Outcomes will be promoted widely via media releases and future industry investment will be sought for research translation. Rapid uptake of the technology will be ensured by attendance at relevant industry trade-shows and expos.
(untitled award)$441,892
ARC National Competitive Grants · FY 2025 · 2025-01
Unlocking Australia’s hydrogen industry through large-scale salt caverns. This project evaluates Australia’s ancient salt deposits to identify optimal sites for underground Hydrogen storage. Salt caverns are the most cost-effective solution for this purpose, making it essential to characterise the sedimentology and structural geology of these deposits thoroughly. The project aims to optimise salt cavern sites in areas with limited geological data by employing an interdisciplinary approach using outcrop analogues from South Australia and the Northern Territory as inputs for novel physical and geophysical modelling. This innovative strategy will minimise Hydrogen leakage, enhance safety, and support Australia’s ambitions to become a key player in the global Hydrogen market. Field of research: 3705 - Geology Hydrogen generation and storage is considered a significant energy replacement for fossil fuels in Australia. However, due to its small molecule size, hydrogen is notoriously difficult to store. Underground salt caverns have been proposed as viable large-scale storage facilities for collected Hydrogen. Knowledge gaps exist in understanding the geological conditions and predicting optimal settings for hydrogen storage. Thus, a pressing need exists to combine traditional field data with innovative geological tools to identify suitable conditions for salt cavern development. In collaboration with industry partners, namely Woodside Energy, this project will model the geological criteria needed to realise this goal. The ability to store vast amounts of Hydrogen fuel will benefit Australia immensely in combating climate change and facilitating the transition to a low-carbon future. Growth in hydrogen storage infrastructure is expected to stimulate economic development and job creation domestically and globally, promoting broader adoption across the Australian landscape. Outputs from this fellowship will be translated through regular workshops, round tables, and reports directly serving hydrogen storage pilots and projects across SA, the NT, and globally. That translation will be available to industry partners and the broader public, especially those driving growth and maintaining hydrogen hubs. Further promotion will be done through industry tradeshows and Expos.
(untitled award)$995,188
ARC National Competitive Grants · FY 2025 · 2025-01
Habitability and resources: evolution of Earth’s silicate weathering system. The Earth's weathering system is the primary stabiliser of climate, inspiring geoengineering efforts to increase carbon dioxide (CO2) removal. A poorly known competing process, known as reverse weathering (RW), releases CO2 during marine authigenic clay formation. This potentially critical component of the carbon cycle remains largely unquantified. This research aims to employ new geochemical and geological tools to reveal, for the first time, how and why the extent of RW has changed over the past 1600 Ma. Expected outcomes will include improved constraints on i) the consequences of RW for CO2 removal via artificially enhanced weathering, and ii) the role that RW reactions play in the formation of marine critical mineral deposits. Field of research: 3799 - Other Earth Sciences Weathering of rocks and minerals consumes carbon dioxide and acts to stabilise Earth’s climate, inspiring attempts to increase carbon dioxide removal via artificially enhanced rock weathering. An important unknown is to what extent ‘reverse weathering’ reactions, which release carbon dioxide back to the atmosphere, counteract the effects of weathering and complicate climate mitigation efforts. These reactions also play a potentially important but poorly understood role in the formation of mineral deposits. This project fills this knowledge gap, building on Australian-led innovation to reconstruct the evolution of Earth’s weathering system over the past 1600 million years. A combination of new tools will reveal, for the first time, how and why the prevalence of reverse weathering has changed over time. Together with targeted case studies, this will identify how reverse weathering i) impacts on the carbon dioxide-removal efficiency of artificially enhanced rock weathering, and ii) contributes to the formation of mineral deposits that are essential for a low carbon economy. This work will provide new knowledge on the weathering system, inform geoengineering options to mitigate climate change and provide economic benefits by guiding Australian explorers searching for critical mineral deposits.Results will be disseminated to academic, industry and public sector stakeholders via tailored workshops, public presentations as well as print and digital media.
Reducing alcohol consumption through the sober curious movement$875,819
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Reducing alcohol consumption through the sober curious movement Category: Medical Research
Reducing alcohol consumption through the sober curious movement$875,819
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Reducing alcohol consumption through the sober curious movement Category: Medical Research
PRO-RUST therapy to trigger prostate cancer ferroptosis$1,220,784
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
PRO-RUST therapy to trigger prostate cancer ferroptosis Category: Medical Research
PRO-RUST therapy to trigger prostate cancer ferroptosis$204,005
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
PRO-RUST therapy to trigger prostate cancer ferroptosis Category: Medical Research
PRO-RUST therapy to trigger prostate cancer ferroptosis$1,220,784
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
PRO-RUST therapy to trigger prostate cancer ferroptosis Category: Medical Research
Recurrent Miscarriage "“ defining clinical subtypes based on...$1,736,037
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Recurrent Miscarriage "“ defining clinical subtypes based on... Category: Medical Research
Recurrent Miscarriage "“ defining clinical subtypes based on...$328,961
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Recurrent Miscarriage "“ defining clinical subtypes based on... Category: Medical Research
Recurrent Miscarriage "“ defining clinical subtypes based on...$1,736,037
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Recurrent Miscarriage "“ defining clinical subtypes based on... Category: Medical Research
The novel role of protease-driven ectodomain shedding in small cell lung...$1,104,072
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
The novel role of protease-driven ectodomain shedding in small cell lung... Category: Medical Research
The novel role of protease-driven ectodomain shedding in small cell lung...$280,835
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
The novel role of protease-driven ectodomain shedding in small cell lung... Category: Medical Research
The novel role of protease-driven ectodomain shedding in small cell lung...$1,104,072
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
The novel role of protease-driven ectodomain shedding in small cell lung... Category: Medical Research
Exploring new anti-apoptotic roles of intracrine VEGF in cartilage...$1,180,525
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Exploring new anti-apoptotic roles of intracrine VEGF in cartilage... Category: Medical Research
Exploring new anti-apoptotic roles of intracrine VEGF in cartilage...$310,678
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Exploring new anti-apoptotic roles of intracrine VEGF in cartilage... Category: Medical Research
Exploring new anti-apoptotic roles of intracrine VEGF in cartilage...$1,180,525
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Exploring new anti-apoptotic roles of intracrine VEGF in cartilage... Category: Medical Research
A novel precision medicine approach for chronic suppurative otitis media$2,094,153
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
A novel precision medicine approach for chronic suppurative otitis media Category: Medical Research
A novel precision medicine approach for chronic suppurative otitis media$413,159
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
A novel precision medicine approach for chronic suppurative otitis media Category: Medical Research
A novel precision medicine approach for chronic suppurative otitis media$2,094,153
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
A novel precision medicine approach for chronic suppurative otitis media Category: Medical Research
Maturing the preterm lung without damaging the brain$2,422,587
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Maturing the preterm lung without damaging the brain Category: Medical Research