Manufacturing Nanostructured Polymer Thin Films using Visible Light. This research aims the development of selective photochemical tools driven by different colours of light for the fabrication of nanostructured polymer brush thin films. By using different wavelengths to selectively activate specific chemical reactions, this will enable multiple reactions to be performed simultaneously, significantly streamlining fabrication. Additionally, the increased selectivity offers pathways to more sophis ....Manufacturing Nanostructured Polymer Thin Films using Visible Light. This research aims the development of selective photochemical tools driven by different colours of light for the fabrication of nanostructured polymer brush thin films. By using different wavelengths to selectively activate specific chemical reactions, this will enable multiple reactions to be performed simultaneously, significantly streamlining fabrication. Additionally, the increased selectivity offers pathways to more sophisticated nanoarchitectures in comparison to existing methods. This research will lead to the fabrication of 3D polymer brush architectures with unparalleled precision, which will be of high scientific and industrial value for a diverse range of applications, such as optoelectronics, nanoactuation, and sensing.Read moreRead less
Programming the Microstructure of 3D Printed Objects . This project aims to apply state-of-the-art living polymerisation techniques to 3D printing to efficiently produce customised polymer materials that are tailored at the molecular level. By combining computational modeling and experimental approach, fast and oxygen tolerant photoliving radical polymerisation will be developed and applied to 3D printing. These new systems will produce highly structured polymer materials with remarkable mechani ....Programming the Microstructure of 3D Printed Objects . This project aims to apply state-of-the-art living polymerisation techniques to 3D printing to efficiently produce customised polymer materials that are tailored at the molecular level. By combining computational modeling and experimental approach, fast and oxygen tolerant photoliving radical polymerisation will be developed and applied to 3D printing. These new systems will produce highly structured polymer materials with remarkable mechanical properties. The effect of nanostructure on the macroscopic material properties will be investigated. The intended outcome of this project will produce advanced materials with tailored mechanical properties via streamlined and accessible approaches.Read moreRead less
Fighting slime with free radicals - new surface coatings for biofilm remediation. Bacterial biofilms are a major problem in a number of environmental, industrial and medical applications. They cause significant risks to human health and present an enormous economic burden to society. This project aims to develop smart polymeric coatings that will discourage bacterial attachment and ensure greater long term control over biofilm growth. These coatings represent a breakthrough in the field and will ....Fighting slime with free radicals - new surface coatings for biofilm remediation. Bacterial biofilms are a major problem in a number of environmental, industrial and medical applications. They cause significant risks to human health and present an enormous economic burden to society. This project aims to develop smart polymeric coatings that will discourage bacterial attachment and ensure greater long term control over biofilm growth. These coatings represent a breakthrough in the field and will have a profound impact in many areas, including reducing infections related to medical implants and improving the efficiency of marine engineering systems.Read moreRead less
Polymer technologies for oil spill remediation and slow-release fertilisers. This project aims to evaluate a patented sulfur polymer in commercial oil spill remediation and slow-release fertilisers. Key objectives are to determine how the polymer degrades, assess the effectiveness of the polymer in oil spill sorption in different contexts, and investigate the polymer as a matrix for slow-release fertilisers. The project expects to generate new approaches to sustainable remediation and crop produ ....Polymer technologies for oil spill remediation and slow-release fertilisers. This project aims to evaluate a patented sulfur polymer in commercial oil spill remediation and slow-release fertilisers. Key objectives are to determine how the polymer degrades, assess the effectiveness of the polymer in oil spill sorption in different contexts, and investigate the polymer as a matrix for slow-release fertilisers. The project expects to generate new approaches to sustainable remediation and crop production. Expected outcomes include new knowledge about the biodegradation of the polymer, new methods for deploying the polymer in oil spill cleanup, and new fertilisers that prevent nutrient waste and runoff. Significant benefits are expected for the environment, as well as economic benefits to the manufacturer and end-users.Read moreRead less
Hybrid photocatalytic nanomaterials for water purification. This project aims to synthesise and characterise a range of porous photocatalytic materials (materials that absorb light to catalyse a reaction), and to establish high-throughput processes to simultaneously test the effectiveness of multiple photocatalytic materials. This interdisciplinary project expects to develop two new techniques that will lead to faster materials optimisation of materials that breakdown organic pollutants in water ....Hybrid photocatalytic nanomaterials for water purification. This project aims to synthesise and characterise a range of porous photocatalytic materials (materials that absorb light to catalyse a reaction), and to establish high-throughput processes to simultaneously test the effectiveness of multiple photocatalytic materials. This interdisciplinary project expects to develop two new techniques that will lead to faster materials optimisation of materials that breakdown organic pollutants in water under light irradiation. The intended outcomes include the production of industrially relevant photocatalysts and building capability in Australia to decrease photocatalytic testing time and cost. This should provide significant benefits to industry and the environment, and have an impact on human health.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE210100100
Funder
Australian Research Council
Funding Amount
$975,934.00
Summary
Multifunctional Platform for Chemical Manufacturing and Energy Materials. We aim to establish the first platform in Australia for the continuous production and in-situ characterisation of molecules and nanomaterials. This project expects to generate new knowledge in the area of functional materials using an interdisciplinary approach. The expected outcomes will be a unique analytical capability for rapid screening of synthetic and operational parameters, and unprecedented fundamental insight int ....Multifunctional Platform for Chemical Manufacturing and Energy Materials. We aim to establish the first platform in Australia for the continuous production and in-situ characterisation of molecules and nanomaterials. This project expects to generate new knowledge in the area of functional materials using an interdisciplinary approach. The expected outcomes will be a unique analytical capability for rapid screening of synthetic and operational parameters, and unprecedented fundamental insight into chemical reactions to inform the design and development of sustainable chemical processes. This proposal will provide significant benefits to cutting-edge research in catalysis, polymer engineering, separation science, CO2 capture and organic synthesis, to positively impact on the energy-manufacturing-environment nexus.Read moreRead less
Data-driven development of photocatalytic and optoelectronic perovskites. This project aims to use materials informatics to discover new, high efficiency perovskites for synthesis and testing in optoelectronic applications. This project expects to identify perovskite composition-property relationships to overcome current drawbacks of high performance perovskites (contain rare or toxic elements and low stability in oxidative and humid environments) by considered selection of elements and their pr ....Data-driven development of photocatalytic and optoelectronic perovskites. This project aims to use materials informatics to discover new, high efficiency perovskites for synthesis and testing in optoelectronic applications. This project expects to identify perovskite composition-property relationships to overcome current drawbacks of high performance perovskites (contain rare or toxic elements and low stability in oxidative and humid environments) by considered selection of elements and their properties. Expected outcomes from this project include new perovskites with commercial potential in critical areas such as energy conversion, photocatalysis and luminescence. This should provide significant benefits including approaches to materials discovery, novel materials and in renewable energy and environmental areas.Read moreRead less
Nano-engineered catalysts for sustainable fuel production from waste . This project aims to address two major problems simultaneously-reducing the burden of non-recyclable waste currently going to landfill in Australia, and offsetting Australia’s reliance on imported diesel to support industry and transport needs. While approximately 95% of diesel consumed in Australia is imported, vast quantities of carbon-based waste ends up in landfill. Municipal Solid Waste (MSW) is a mixture of plant-based ....Nano-engineered catalysts for sustainable fuel production from waste . This project aims to address two major problems simultaneously-reducing the burden of non-recyclable waste currently going to landfill in Australia, and offsetting Australia’s reliance on imported diesel to support industry and transport needs. While approximately 95% of diesel consumed in Australia is imported, vast quantities of carbon-based waste ends up in landfill. Municipal Solid Waste (MSW) is a mixture of plant-based waste (including food, garden, paper, and wood) and fossil-fuel derived materials (plastics). Using an innovative and environmentally-sustainable catalytic process, the outcomes of this project are aimed alleviating Australia’s dependence on diesel fuel imports and better waste management solutions in Australia.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220101000
Funder
Australian Research Council
Funding Amount
$418,000.00
Summary
Polymeric materials of tailor-made macrocycles for selective anion capture. This project aims to develop an innovative class of adsorbent materials comprised of macrocycles (large cyclic molecules) tailored to specifically bind toxic anions in water. The project expects to address the key issue of poor selectivity in existing adsorbent materials and generate knowledge in materials chemistry by producing ring-shape anion binding molecules, advancing low-cost synthesis of materials, and providing ....Polymeric materials of tailor-made macrocycles for selective anion capture. This project aims to develop an innovative class of adsorbent materials comprised of macrocycles (large cyclic molecules) tailored to specifically bind toxic anions in water. The project expects to address the key issue of poor selectivity in existing adsorbent materials and generate knowledge in materials chemistry by producing ring-shape anion binding molecules, advancing low-cost synthesis of materials, and providing fundamental insights into anion binding in polymeric materials. Expected outcomes include sensors and adsorbents targeting toxic anions for water quality monitoring and purification. This should provide significant benefits, such as improving water quality and tackling environmental challenges globally and in Australia.Read moreRead less
Sulfur Polymers: A New Class of Dynamic, Responsive & Recyclable Materials. This project aims to establish design principles for the manufacture of polymers made from sulfur, an abundant yet underused building block. These novel materials will be tested as next-generation rubber and plastic. This project expects to generate new knowledge in how these materials can be assembled and recycled, and also how they can be used to extract valuable gold from ore and e-waste. Anticipated outcomes of the p ....Sulfur Polymers: A New Class of Dynamic, Responsive & Recyclable Materials. This project aims to establish design principles for the manufacture of polymers made from sulfur, an abundant yet underused building block. These novel materials will be tested as next-generation rubber and plastic. This project expects to generate new knowledge in how these materials can be assembled and recycled, and also how they can be used to extract valuable gold from ore and e-waste. Anticipated outcomes of the project include access to entirely new materials useful in sustainable plastic manufacturing and sustainable gold extraction. These outcomes should provide significant benefits including functional replacements for non-recyclable plastics and elimination of toxic mercury and cyanide in gold mining and e-waste processing.Read moreRead less