Sequence-defined polymers and green chemistry. This project aims to synthesise polymers that have precise chemical structure and mimic the biological activities of natural biopolymers like peptides and proteins. Monomer sequence regulation in these natural biopolymers is important in biology and necessary for crucial features of life, such as molecular recognition, self-replication and catalysis. Current artificial techniques for biopolymer synthesis are time consuming and present low yields at ....Sequence-defined polymers and green chemistry. This project aims to synthesise polymers that have precise chemical structure and mimic the biological activities of natural biopolymers like peptides and proteins. Monomer sequence regulation in these natural biopolymers is important in biology and necessary for crucial features of life, such as molecular recognition, self-replication and catalysis. Current artificial techniques for biopolymer synthesis are time consuming and present low yields at high costs. This project expects its new materials will increase manufacturing sustainability, chemical diversity and industrial viability; produce health benefits for Australia by improving chemotherapy and diagnosis for diseases; and benefit the Australian economy.Read moreRead less
Next generation material imaging, spectrometry and fabrication techniques. This project aims to solve a common, fundamental problem limiting the performance of mass spectrometers and high resolution electron microscopes: surface modification caused by unintended chemical reactions due to electron impact. The intended project outcomes will advance current understanding of electron restructuring of surfaces and open the door to next-generation material imaging, spectrometry and fabrication techniq ....Next generation material imaging, spectrometry and fabrication techniques. This project aims to solve a common, fundamental problem limiting the performance of mass spectrometers and high resolution electron microscopes: surface modification caused by unintended chemical reactions due to electron impact. The intended project outcomes will advance current understanding of electron restructuring of surfaces and open the door to next-generation material imaging, spectrometry and fabrication techniques. It will develop a superior detector for mass spectrometry and improve the imaging and nanofabrication capabilities of state-of-the-art electron microscopes. Read moreRead less
Chlorine Evolution Catalysts for Efferent Seawater Electrolysis. Seawater is the most abundant aqueous resource on earth that is readily accessible at very low costs, but yet to be directly utilised for production of hydrogen fuel and commodity chemicals. This project aims to develop cheap and plentiful carbon-based high performance chlorine evolution electrocatalysts for seawater electrolysis powered by renewable electricity to realise the production of hydrogen, chlorine and sodium hydroxide d ....Chlorine Evolution Catalysts for Efferent Seawater Electrolysis. Seawater is the most abundant aqueous resource on earth that is readily accessible at very low costs, but yet to be directly utilised for production of hydrogen fuel and commodity chemicals. This project aims to develop cheap and plentiful carbon-based high performance chlorine evolution electrocatalysts for seawater electrolysis powered by renewable electricity to realise the production of hydrogen, chlorine and sodium hydroxide directly from seawater. The electrolyser can also be used to treat desalination brine while produce hydrogen and chemicals. The success of the project will set a firm technological foundation for seawater utilisation, which will add to Australian capability to meet future energy and environment challenges.Read moreRead less
Chiral synthetic macromolecules - control of sequence and stereochemistry. This project aims to assemble a library of novel chiral polymers mimicking natural peptides with precisely controlled primary structures using emerging synthetic technologies. A systematic investigation of these synthetic materials will provide an in-depth understanding of how sequence and stereochemistry influence chemical and physical properties. Employing rational design principles, desired functionality could be optim ....Chiral synthetic macromolecules - control of sequence and stereochemistry. This project aims to assemble a library of novel chiral polymers mimicking natural peptides with precisely controlled primary structures using emerging synthetic technologies. A systematic investigation of these synthetic materials will provide an in-depth understanding of how sequence and stereochemistry influence chemical and physical properties. Employing rational design principles, desired functionality could be optimised through the selective modification of polymer structure. These materials should be able to emulate the unique properties and functionality of natural peptides/proteins, making them invaluable for biochemical applications, such as molecular recognition and asymmetric catalysis.Read moreRead less
Naturally derived photoinitiators for biocompatible 3D printing. This project aims to develop an environmentally-friendly approach to naturally derived photoinitiators which are applicable to 3D printing through low-energy, visible light-induced polymerisation, and explore their application in the fabrication of biocompatible polymeric materials. Traditional polymer manufacturing processes such as thermopolymerisation employ hazardous chemicals which present health and environmental risks. This ....Naturally derived photoinitiators for biocompatible 3D printing. This project aims to develop an environmentally-friendly approach to naturally derived photoinitiators which are applicable to 3D printing through low-energy, visible light-induced polymerisation, and explore their application in the fabrication of biocompatible polymeric materials. Traditional polymer manufacturing processes such as thermopolymerisation employ hazardous chemicals which present health and environmental risks. This project expects to expand fundamental scientific knowledge of photochemistry, polymer chemistry and biology through the development of a novel, economical, clean, commercially-relevant platform (3D printing) for the fabrication of polymeric materials.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL100100117
Funder
Australian Research Council
Funding Amount
$2,713,582.00
Summary
Molecular Plasmonics - From Single Electrons to Quantum Catalysis and Optical Logic Gates. After a decade of basic research, Nanotechnology is now entering its most disruptive phase. New nanoscale phenomena are being exploited and converted into viable technologies. Plasmonics - the manipulation of light using metal nanostructures - is one of the most promising of these. Plasmonics will enable scientists to achieve optical computing, reach higher data storage densities, and synthesize better cat ....Molecular Plasmonics - From Single Electrons to Quantum Catalysis and Optical Logic Gates. After a decade of basic research, Nanotechnology is now entering its most disruptive phase. New nanoscale phenomena are being exploited and converted into viable technologies. Plasmonics - the manipulation of light using metal nanostructures - is one of the most promising of these. Plasmonics will enable scientists to achieve optical computing, reach higher data storage densities, and synthesize better catalysts. Other applications include bio-sensing and rapid pathogen detection. To realise these potential outcomes, a leading international cluster focussing on plasmonics will be set up and this cluster will link state-of-the-art materials science, instrumentation and theory.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180100629
Funder
Australian Research Council
Funding Amount
$365,058.00
Summary
Evolutionary impacts of climate change in Australia’s fossil record. This project aims to identify evolutionary responses to climate change in Australia's fossil record by comparing variation in lizard and frog communities across geological time. Using X-ray techniques on museum specimens, this project will generate a large-scale database for tracking evolutionary shifts in relation to historical climatic events. Expected outcomes include the first anatomical descriptions for many species, filli ....Evolutionary impacts of climate change in Australia’s fossil record. This project aims to identify evolutionary responses to climate change in Australia's fossil record by comparing variation in lizard and frog communities across geological time. Using X-ray techniques on museum specimens, this project will generate a large-scale database for tracking evolutionary shifts in relation to historical climatic events. Expected outcomes include the first anatomical descriptions for many species, filling major gaps in our ability to place fossils in a contemporary framework. This research will demonstrate the value of our national collections for addressing important environmental issues, such as biodiversity, extinction, and future habitat change.Read moreRead less
High performance inks for solution based organic light emitting diodes manufacturing. This project aims to introduce an advanced solution processing and printing technique for organic light emitting diode (OLED) fabrication based on a set of innovative macromolecular chemistries. These proceed either photochemically or thermally, exploiting precision macromolecular designs of the polymer precursor materials, which contain advanced emitter systems developed by Cynora. Solution fabrication of OLED ....High performance inks for solution based organic light emitting diodes manufacturing. This project aims to introduce an advanced solution processing and printing technique for organic light emitting diode (OLED) fabrication based on a set of innovative macromolecular chemistries. These proceed either photochemically or thermally, exploiting precision macromolecular designs of the polymer precursor materials, which contain advanced emitter systems developed by Cynora. Solution fabrication of OLED is a challenging, yet ultimately powerful, process with key advantages over current vacuum processing systems, especially with regard to production flexibility, cost and OLED size. The project will provide a functioning technology platform for solution OLED fabrication.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE190100741
Funder
Australian Research Council
Funding Amount
$372,386.00
Summary
How genomics is shaping healthcare: an ethnographic study. This project aims to generate new understandings of how science and biomedicine are co-producing and shaping healthcare. This will be achieved by combining hospital and laboratory ethnography to examine how genomic data is produced, circulated and applied in clinical settings. The project aims to build a theoretical framework and conceptual understanding of genomic medicine that may be used by practitioners and may inform policy. This pr ....How genomics is shaping healthcare: an ethnographic study. This project aims to generate new understandings of how science and biomedicine are co-producing and shaping healthcare. This will be achieved by combining hospital and laboratory ethnography to examine how genomic data is produced, circulated and applied in clinical settings. The project aims to build a theoretical framework and conceptual understanding of genomic medicine that may be used by practitioners and may inform policy. This project should provide significant benefits such as minimising costs by helping identify and streamline decision-making processes, and by showing how public engagement practices shape patients' and practitioners' approaches to genomics.Read moreRead less
Smart magnetic resonance imaging (MRI) contrast agents: from early detection to assessment of drug delivery mechanisms. 'Smart' contrast agents will be developed for enhancing the performance of magnetic resonance imaging (MRI) of diseases such as cancer by designing them to be triggered by biochemical markers for disease. This has the potential to aid in early detection which can lead to lower mortality rates and consequently a lower burden on the health system.