ADELAIDE UNIVERSITY

university

Total disclosed

$570,419,502

Award count

648

Distinct programs

First → last award

2019 → 2031

Disclosed awards

Showing 351–375 of 648. Public data only — SR&ED tax credits are confidential and not shown.

Supporting neurodevelopment through targeted nutrition$2,933,372
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Supporting neurodevelopment through targeted nutrition Category: Medical Research
Supporting neurodevelopment through targeted nutrition$576,981
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Supporting neurodevelopment through targeted nutrition Category: Medical Research
Supporting neurodevelopment through targeted nutrition$2,933,372
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Supporting neurodevelopment through targeted nutrition Category: Medical Research
New approaches to define protein function during malaria host cell entry$1,061,015
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
New approaches to define protein function during malaria host cell entry Category: Humanities, Arts and Social Sciences (HASS) Research
New approaches to define protein function during malaria host cell entry$1,061,015
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
New approaches to define protein function during malaria host cell entry Category: Humanities, Arts and Social Sciences (HASS) Research
Exploring the Boundaries of Nuclear Reprogramming$3,071,320
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Exploring the Boundaries of Nuclear Reprogramming Category: Medical Research
Exploring the Boundaries of Nuclear Reprogramming$604,115
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Exploring the Boundaries of Nuclear Reprogramming Category: Medical Research
Exploring the Boundaries of Nuclear Reprogramming$3,071,320
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Exploring the Boundaries of Nuclear Reprogramming Category: Medical Research
Harnessing The Gut Microbiota To Predict And Prevent Life-Threatening...$1,622,675
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Harnessing The Gut Microbiota To Predict And Prevent Life-Threatening... Category: Medical Research
Harnessing The Gut Microbiota To Predict And Prevent Life-Threatening...$269,483
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Harnessing The Gut Microbiota To Predict And Prevent Life-Threatening... Category: Medical Research
Harnessing The Gut Microbiota To Predict And Prevent Life-Threatening...$1,622,675
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Harnessing The Gut Microbiota To Predict And Prevent Life-Threatening... Category: Medical Research
Innovative Chemoimmunotherapy for Metastatic Castration-Resistant...$708,359
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Innovative Chemoimmunotherapy for Metastatic Castration-Resistant... Category: Medical Research
Innovative Chemoimmunotherapy for Metastatic Castration-Resistant...$139,331
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Innovative Chemoimmunotherapy for Metastatic Castration-Resistant... Category: Medical Research
Innovative Chemoimmunotherapy for Metastatic Castration-Resistant...$708,359
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Innovative Chemoimmunotherapy for Metastatic Castration-Resistant... Category: Medical Research
Systematic reviews of aetiology and risk factors of disease: a program...$708,359
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Systematic reviews of aetiology and risk factors of disease: a program... Category: Medical Research
Systematic reviews of aetiology and risk factors of disease: a program...$139,331
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Systematic reviews of aetiology and risk factors of disease: a program... Category: Medical Research
Systematic reviews of aetiology and risk factors of disease: a program...$708,359
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Systematic reviews of aetiology and risk factors of disease: a program... Category: Medical Research
Novel strategies for global control of meningococcal disease and...$2,683,076
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Novel strategies for global control of meningococcal disease and... Category: Medical Research
Novel strategies for global control of meningococcal disease and...$527,749
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Novel strategies for global control of meningococcal disease and... Category: Medical Research
Novel strategies for global control of meningococcal disease and...$2,683,076
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Novel strategies for global control of meningococcal disease and... Category: Medical Research
High-energy cathode materials for next-generation lithium-ion batteries$431,191
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
High-energy cathode materials for next-generation lithium-ion batteries Category: Humanities, Arts and Social Sciences (HASS) Research
(untitled award)$1,314,615
ARC National Competitive Grants · FY 2025 · 2025-01
Deciphering contextual multi-pathway crosstalk in cellular decision making. This project aims to unravel how cells make decisions by decoding their complex internal communication networks. Like assembling puzzle pieces to form a complete picture, this project will determine how different signalling routes in cells fit together and also how this assembled network functions in different cell types. The project will also develop new methods to map these intricate networks across various cellular contexts and simulate them using computers. The benefit will be new knowledge of how cells process multiple signals to make decisions and new tools enabling more accurate prediction of cell behaviour. These advances will drive innovation in biotechnology, from enhancing biofuel production to developing more resilient crops. Field of research: 3101 - Biochemistry and Cell Biology This project aims to determine how cells make decisions by unravelling their complex internal communication networks. Just as a city's traffic system adapts to changing conditions, cellular signalling pathways respond dynamically to their environment. We will develop cutting-edge predictive models and methods to map these intricate networks across various cell types. This will yield two significant outcomes:(1) fundamental knowledge of multi-pathway signalling interactions and the principles governing cellular decision-making; (2) innovative tools enabling researchers and industry to build sophisticated, accurate simulations of cellular behaviour. These advancements will benefit Australians in several ways. Economically, this research will drive innovation in the biotechnology sector by enabling new ways to control how cells behave for industrial applications. For example, we can program cells to grow more efficiently for producing biofuels - a renewable energy source made by microorganisms - helping Australia reduce its reliance on fossil fuels and address climate change. Furthermore, insights into cellular communication could help develop more resilient crops, supporting Australia's agricultural industry.To maximise these benefits and ensure they reach Australians, we will make all computational tools freely available online, partner with Australian biotechnology companies, and train the next generation of interdisciplinary scientists to boost Australia's STEM workforce.
(untitled award)$496,587
ARC National Competitive Grants · FY 2025 · 2025-01
Prioritised lithium-selective recovery for lithium-ion battery recycling. This project, in collaboration with Iondrive Technologies, aims to develop natural and efficient deep eutectic solvents for selective lithium recycling from spent Li-ion batteries to address demand-supply mismatch for the lithium market. Innovations will bridge interdisciplinary knowledge gaps between fundamental metallurgy and practical recycling via strategic solvent design for selective lithium leaching and recovery into high-value materials. Expected outcomes include advanced solvent technologies, specific reaction pathways, and battery-grade products. These will provide benefits in improving lithium production, reducing environmental impact, facilitating battery recycling capability and accelerating Australia’s net-zero transition. Field of research: 4004 - Chemical Engineering The surging demand for lithium (Li), critical for lithium-ion batteries (LIBs) used in electric vehicles (EVs) and renewable energy, is creating a significant supply challenge for Australia. S&P Global reported that by 2030 global Li demand will be three million tonnes, exceeding Li production. With over 136,000 tonnes of waste LIBs expected annually by 2036, but a recycling rate under 1%, the need for efficient Li recycling is urgent. This project aims to establish green and efficient Li recycling technology for waste batteries, recovering battery grade products. It will generate new knowledge through the development of novel solvents for green battery recycling. Research outcomes will benefit researchers and manufacturers, boosting Australia’s capacity for long-term commercialisation of battery recycling and securing Australia’s status as a world leader in diverse Li supply chains for batteries. Findings will link to the national commitment to environmental sustainability, clean energy, and a circular economy through increased battery waste recycling, maximising Li recovery, reducing dependence on mining operations and creating new job opportunities. Our collaboration with industry partner Iondrive Technologies will ensure promotion and uptake of the new technology beyond academia. Research progress will be regularly reported in industry newsletters, seminars and attendance at Expos to maximise impact and commercialisation.
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
Rebalancing sex hormone signalling in the breast ecosystem to reduce...$314,020
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Rebalancing sex hormone signalling in the breast ecosystem to reduce... 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 351–375 of 648. Public data only — SR&ED tax credits are confidential and not shown.

Supporting neurodevelopment through targeted nutrition$2,933,372
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Supporting neurodevelopment through targeted nutrition Category: Medical Research
Supporting neurodevelopment through targeted nutrition$576,981
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Supporting neurodevelopment through targeted nutrition Category: Medical Research
Supporting neurodevelopment through targeted nutrition$2,933,372
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Supporting neurodevelopment through targeted nutrition Category: Medical Research
New approaches to define protein function during malaria host cell entry$1,061,015
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
New approaches to define protein function during malaria host cell entry Category: Humanities, Arts and Social Sciences (HASS) Research
New approaches to define protein function during malaria host cell entry$1,061,015
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
New approaches to define protein function during malaria host cell entry Category: Humanities, Arts and Social Sciences (HASS) Research
Exploring the Boundaries of Nuclear Reprogramming$3,071,320
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Exploring the Boundaries of Nuclear Reprogramming Category: Medical Research
Exploring the Boundaries of Nuclear Reprogramming$604,115
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Exploring the Boundaries of Nuclear Reprogramming Category: Medical Research
Exploring the Boundaries of Nuclear Reprogramming$3,071,320
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Exploring the Boundaries of Nuclear Reprogramming Category: Medical Research
Harnessing The Gut Microbiota To Predict And Prevent Life-Threatening...$1,622,675
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Harnessing The Gut Microbiota To Predict And Prevent Life-Threatening... Category: Medical Research
Harnessing The Gut Microbiota To Predict And Prevent Life-Threatening...$269,483
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Harnessing The Gut Microbiota To Predict And Prevent Life-Threatening... Category: Medical Research
Harnessing The Gut Microbiota To Predict And Prevent Life-Threatening...$1,622,675
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Harnessing The Gut Microbiota To Predict And Prevent Life-Threatening... Category: Medical Research
Innovative Chemoimmunotherapy for Metastatic Castration-Resistant...$708,359
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Innovative Chemoimmunotherapy for Metastatic Castration-Resistant... Category: Medical Research
Innovative Chemoimmunotherapy for Metastatic Castration-Resistant...$139,331
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Innovative Chemoimmunotherapy for Metastatic Castration-Resistant... Category: Medical Research
Innovative Chemoimmunotherapy for Metastatic Castration-Resistant...$708,359
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Innovative Chemoimmunotherapy for Metastatic Castration-Resistant... Category: Medical Research
Systematic reviews of aetiology and risk factors of disease: a program...$708,359
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Systematic reviews of aetiology and risk factors of disease: a program... Category: Medical Research
Systematic reviews of aetiology and risk factors of disease: a program...$139,331
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Systematic reviews of aetiology and risk factors of disease: a program... Category: Medical Research
Systematic reviews of aetiology and risk factors of disease: a program...$708,359
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Systematic reviews of aetiology and risk factors of disease: a program... Category: Medical Research
Novel strategies for global control of meningococcal disease and...$2,683,076
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Novel strategies for global control of meningococcal disease and... Category: Medical Research
Novel strategies for global control of meningococcal disease and...$527,749
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Novel strategies for global control of meningococcal disease and... Category: Medical Research
Novel strategies for global control of meningococcal disease and...$2,683,076
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Novel strategies for global control of meningococcal disease and... Category: Medical Research
High-energy cathode materials for next-generation lithium-ion batteries$431,191
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
High-energy cathode materials for next-generation lithium-ion batteries Category: Humanities, Arts and Social Sciences (HASS) Research
(untitled award)$1,314,615
ARC National Competitive Grants · FY 2025 · 2025-01
Deciphering contextual multi-pathway crosstalk in cellular decision making. This project aims to unravel how cells make decisions by decoding their complex internal communication networks. Like assembling puzzle pieces to form a complete picture, this project will determine how different signalling routes in cells fit together and also how this assembled network functions in different cell types. The project will also develop new methods to map these intricate networks across various cellular contexts and simulate them using computers. The benefit will be new knowledge of how cells process multiple signals to make decisions and new tools enabling more accurate prediction of cell behaviour. These advances will drive innovation in biotechnology, from enhancing biofuel production to developing more resilient crops. Field of research: 3101 - Biochemistry and Cell Biology This project aims to determine how cells make decisions by unravelling their complex internal communication networks. Just as a city's traffic system adapts to changing conditions, cellular signalling pathways respond dynamically to their environment. We will develop cutting-edge predictive models and methods to map these intricate networks across various cell types. This will yield two significant outcomes:(1) fundamental knowledge of multi-pathway signalling interactions and the principles governing cellular decision-making; (2) innovative tools enabling researchers and industry to build sophisticated, accurate simulations of cellular behaviour. These advancements will benefit Australians in several ways. Economically, this research will drive innovation in the biotechnology sector by enabling new ways to control how cells behave for industrial applications. For example, we can program cells to grow more efficiently for producing biofuels - a renewable energy source made by microorganisms - helping Australia reduce its reliance on fossil fuels and address climate change. Furthermore, insights into cellular communication could help develop more resilient crops, supporting Australia's agricultural industry.To maximise these benefits and ensure they reach Australians, we will make all computational tools freely available online, partner with Australian biotechnology companies, and train the next generation of interdisciplinary scientists to boost Australia's STEM workforce.
(untitled award)$496,587
ARC National Competitive Grants · FY 2025 · 2025-01
Prioritised lithium-selective recovery for lithium-ion battery recycling. This project, in collaboration with Iondrive Technologies, aims to develop natural and efficient deep eutectic solvents for selective lithium recycling from spent Li-ion batteries to address demand-supply mismatch for the lithium market. Innovations will bridge interdisciplinary knowledge gaps between fundamental metallurgy and practical recycling via strategic solvent design for selective lithium leaching and recovery into high-value materials. Expected outcomes include advanced solvent technologies, specific reaction pathways, and battery-grade products. These will provide benefits in improving lithium production, reducing environmental impact, facilitating battery recycling capability and accelerating Australia’s net-zero transition. Field of research: 4004 - Chemical Engineering The surging demand for lithium (Li), critical for lithium-ion batteries (LIBs) used in electric vehicles (EVs) and renewable energy, is creating a significant supply challenge for Australia. S&P Global reported that by 2030 global Li demand will be three million tonnes, exceeding Li production. With over 136,000 tonnes of waste LIBs expected annually by 2036, but a recycling rate under 1%, the need for efficient Li recycling is urgent. This project aims to establish green and efficient Li recycling technology for waste batteries, recovering battery grade products. It will generate new knowledge through the development of novel solvents for green battery recycling. Research outcomes will benefit researchers and manufacturers, boosting Australia’s capacity for long-term commercialisation of battery recycling and securing Australia’s status as a world leader in diverse Li supply chains for batteries. Findings will link to the national commitment to environmental sustainability, clean energy, and a circular economy through increased battery waste recycling, maximising Li recovery, reducing dependence on mining operations and creating new job opportunities. Our collaboration with industry partner Iondrive Technologies will ensure promotion and uptake of the new technology beyond academia. Research progress will be regularly reported in industry newsletters, seminars and attendance at Expos to maximise impact and commercialisation.
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
Rebalancing sex hormone signalling in the breast ecosystem to reduce...$314,020
GrantConnect (Australian Government grants) · FY 2025 · 2025-01
Rebalancing sex hormone signalling in the breast ecosystem to reduce... Category: Medical Research