Discovery Early Career Researcher Award - Grant ID: DE240100038
Funder
Australian Research Council
Funding Amount
$430,000.00
Summary
Truth-telling Australia's colonial past with art by non-Indigenous artists. This project aims to address creative practices by non-Indigenous artists that confront Australia's difficult colonial past by advancing best practice approaches for the creation of such artworks. This project expects to generate new knowledge in the area of contemporary art using an innovative approach that combines practice-led, artistic research with interdisciplinary decolonial methodologies. Expected outcomes of thi ....Truth-telling Australia's colonial past with art by non-Indigenous artists. This project aims to address creative practices by non-Indigenous artists that confront Australia's difficult colonial past by advancing best practice approaches for the creation of such artworks. This project expects to generate new knowledge in the area of contemporary art using an innovative approach that combines practice-led, artistic research with interdisciplinary decolonial methodologies. Expected outcomes of this project include improved approaches to how the art sector engages with uncomfortable colonial histories. This should provide significant benefits such as enhanced relations between Indigenous and non-Indigenous people by supporting non-Indigenous artists to engage in sensitive truth-telling about Australia’s colonial past.Read moreRead less
Data Driven Discovery of New Catalysts for Asymmetric Synthesis. This project aims to discover new catalytic strategies for the synthesis of valuable nitrogen-containing molecules. An innovative approach combining statistical modelling techniques and chemical synthesis tactics will be used to establish a unique platform for predictable catalyst design that significantly accelerates the discovery process. As a result, new organometallic catalysts that efficiently convert simple and readily access ....Data Driven Discovery of New Catalysts for Asymmetric Synthesis. This project aims to discover new catalytic strategies for the synthesis of valuable nitrogen-containing molecules. An innovative approach combining statistical modelling techniques and chemical synthesis tactics will be used to establish a unique platform for predictable catalyst design that significantly accelerates the discovery process. As a result, new organometallic catalysts that efficiently convert simple and readily accessible chemical building blocks into complex chiral amine derivatives in a safer and more cost effective manner will be identified. These new catalytic strategies will be of significant utility, enabling the invention and more sustainable manufacture of agrochemicals, life-saving medicines, and functional materials.Read moreRead less
Special Research Initiatives - Grant ID: SR200200052
Funder
Australian Research Council
Funding Amount
$271,000.00
Summary
The war at home: art describes Australia’s turbulent present. This project investigates the friction between the nation’s stories of itself, and the current massive fracturing of health, of places and of peoples. Because Australia is changing beyond measure, it is even appropriate to talk about the war at home. From World War 1 onwards, the Australian government decided that war artists be commissioned to make art about the nation at war. Our project proposes that a team of Australian artists, w ....The war at home: art describes Australia’s turbulent present. This project investigates the friction between the nation’s stories of itself, and the current massive fracturing of health, of places and of peoples. Because Australia is changing beyond measure, it is even appropriate to talk about the war at home. From World War 1 onwards, the Australian government decided that war artists be commissioned to make art about the nation at war. Our project proposes that a team of Australian artists, with a deep experience of picturing conflict, investigates the current war at home, guided by a senior Gunditjimara elder and in collaboration with an eminent biomedical scientist. Future Australians will benefit from the heritage created by art portraying a new understanding of the current war at home.Read moreRead less
Care and Repair: Rethinking Contemporary Curation for Conditions of Crisis. This project aims to address the significant challenge of how to curate contemporary art under conditions of crisis, made acute by the pandemic. It expects to generate new knowledge in the growth areas of contemporary art and curatorial practice, which will be translatable to creative industries seeking solutions to similar challenges. Anticipated outcomes include new models for sustainable, future-oriented creative prac ....Care and Repair: Rethinking Contemporary Curation for Conditions of Crisis. This project aims to address the significant challenge of how to curate contemporary art under conditions of crisis, made acute by the pandemic. It expects to generate new knowledge in the growth areas of contemporary art and curatorial practice, which will be translatable to creative industries seeking solutions to similar challenges. Anticipated outcomes include new models for sustainable, future-oriented creative practice; a stronger international profile for Australian artists and curators; and the establishment of a regional network of artists and curators between Australia and Southeast Asia. This should significantly aid our understanding of how to meet current and future challenges to producers and audiences of contemporary art.Read moreRead less
Solar-Driven C-H Functionalization Reactions. This project aims to investigate the functionalization reaction of unreactive C-H bonds using light as the source of energy. Light is a transformative change to synthesis as thermal activation is exchanged to solar activation. The latter gives access to excited state chemistry and enables reaction steps that are thermally inaccessible. It is a key strategy to leverage synthesis to the demands of the 21st century and to minimise its ecologic footprint ....Solar-Driven C-H Functionalization Reactions. This project aims to investigate the functionalization reaction of unreactive C-H bonds using light as the source of energy. Light is a transformative change to synthesis as thermal activation is exchanged to solar activation. The latter gives access to excited state chemistry and enables reaction steps that are thermally inaccessible. It is a key strategy to leverage synthesis to the demands of the 21st century and to minimise its ecologic footprint. At the same time this strategy provides a lever to profoundly impact and drive new concepts in synthesis. Significant benefits are expected, such as increase in fundamental knowledge on photochemical processes, but also the access to new materials for applications as drugs or OLEDs.Read moreRead less
Integrated nonmetal-metal single-atom catalysis for selective synthesis. Single atom catalysts can achieve the maximum efficiency of active sites for a reaction. This project will develop integrated nonmetal and metal single atom-based catalysts for selective oxidation towards clean production and organic waste conversion to value-added polymers for carbon recycle. The project will result in new functional materials and green catalytic processes for chemical synthesis and waste reduction, and ad ....Integrated nonmetal-metal single-atom catalysis for selective synthesis. Single atom catalysts can achieve the maximum efficiency of active sites for a reaction. This project will develop integrated nonmetal and metal single atom-based catalysts for selective oxidation towards clean production and organic waste conversion to value-added polymers for carbon recycle. The project will result in new functional materials and green catalytic processes for chemical synthesis and waste reduction, and advance fundamental understanding of molecular structure of materials for catalyst design and process engineering for industrial applications. The outcomes will promote the development of chemical industry, waste recycle and green environment in Australia, making significant benefits to economics and society.Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC220100035
Funder
Australian Research Council
Funding Amount
$4,958,927.00
Summary
ARC Training Centre for Hyphenated Analytical Separation Technologies . The toughest analytical science challenges typically require advanced analytical technologies to acquire the desired solutions. In the field of separation science this inevitably involves hyphenated separation technologies, specifically the combination of chromatography and mass spectrometry. Advancing this technology to its full capability requires the collaborative strength of academic, industry and end-user partnerships, ....ARC Training Centre for Hyphenated Analytical Separation Technologies . The toughest analytical science challenges typically require advanced analytical technologies to acquire the desired solutions. In the field of separation science this inevitably involves hyphenated separation technologies, specifically the combination of chromatography and mass spectrometry. Advancing this technology to its full capability requires the collaborative strength of academic, industry and end-user partnerships, providing the materials and inspiration for young researchers to apply novel hyphenated methods to complex environmental and industrial systems. This Centre will deliver fundamental developments in hyphenated technologies, new analytical capability, and applied outcomes across multiple end-user groups and interests. Read moreRead less
High productivity of hybrid plasma electrocatalytic fertiliser production. Non-thermal plasma-driven electrocatalytic production of nitrogen fertilisers. The project aims to develop scalable technology for ambient production of fertilisers using renewable energy, air, water, and captured CO2. This project is anticipated to generate new knowledge in plasma catalysis and electrochemical coupling through designing and fine-tuning catalyst-loaded 3D scaffolds. Expected outcomes of this project inclu ....High productivity of hybrid plasma electrocatalytic fertiliser production. Non-thermal plasma-driven electrocatalytic production of nitrogen fertilisers. The project aims to develop scalable technology for ambient production of fertilisers using renewable energy, air, water, and captured CO2. This project is anticipated to generate new knowledge in plasma catalysis and electrochemical coupling through designing and fine-tuning catalyst-loaded 3D scaffolds. Expected outcomes of this project include increasing the capacity to adopt low-cost and decentralised methods for renewable energy utilisation. This should provide substantial technological capacity that can be applied to other sectors of Australia's developing hydrogen economy and expand the use of renewable energy Power-to-X for zero-emissions energy vectors.Read moreRead less
Plasma driven electrochemical synthesis of urea. Urea is the most used nitrogen fertilizer in the world, with more urea manufactured by mass than any other organic chemical. However, the world is experiencing a major shortage of the compound, impacting our food costs and security along with dependent products such as AdBlue (diesel exhaust fluid). Commercial urea production relies on a complex reaction between ammonia and carbon dioxide at high temperatures, which consumes more than 2% of the w ....Plasma driven electrochemical synthesis of urea. Urea is the most used nitrogen fertilizer in the world, with more urea manufactured by mass than any other organic chemical. However, the world is experiencing a major shortage of the compound, impacting our food costs and security along with dependent products such as AdBlue (diesel exhaust fluid). Commercial urea production relies on a complex reaction between ammonia and carbon dioxide at high temperatures, which consumes more than 2% of the world’s energy. This project aims to produce more sustainable urea driven by electricity and using air and captured CO2, through the use of a plasma-driven electrochemical technology, providing farmers with a low-cost fertilizer under a decentralized and secure supply. Read moreRead less
Art of Peace: New perspectives in visual art on peacekeeping from the 1990s. Art of Peace investigates the important role of art in Australia’s engagement in international peacekeeping. Australian artists such as George Gittoes and Wendy Sharpe have created powerful and memorable images of Australian forces as peacekeepers and nation-builders. Yet, what of the less-visible perspectives of artists from the countries to which Australia sends peacekeepers? Art of Peace will create new knowledge aro ....Art of Peace: New perspectives in visual art on peacekeeping from the 1990s. Art of Peace investigates the important role of art in Australia’s engagement in international peacekeeping. Australian artists such as George Gittoes and Wendy Sharpe have created powerful and memorable images of Australian forces as peacekeepers and nation-builders. Yet, what of the less-visible perspectives of artists from the countries to which Australia sends peacekeepers? Art of Peace will create new knowledge around those artists’ perceptions of peacekeeping missions, through a new body of scholarship, public engagement and an exhibition in Perth and Sydney curated by Art Gallery of WA. It engages a national audience to focus on the important role of Australia in international affairs since 1990 through new contemporary art.Read moreRead less