Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100013
Funder
Australian Research Council
Funding Amount
$170,000.00
Summary
Eddy correlation lander array. The proposed Eddy Correlation Lander Array will be the first in world and, as such, will allow ground-breaking research to be undertaken resulting in advances in a variety of fields. As such, this equipment will significantly enhance many core research programs at Southern Cross University and Monash University and enhance our ability to deliver high quality research in the National Research Priority Area of An Environmentally Sustainable Australia, with priority g ....Eddy correlation lander array. The proposed Eddy Correlation Lander Array will be the first in world and, as such, will allow ground-breaking research to be undertaken resulting in advances in a variety of fields. As such, this equipment will significantly enhance many core research programs at Southern Cross University and Monash University and enhance our ability to deliver high quality research in the National Research Priority Area of An Environmentally Sustainable Australia, with priority goals in water resources, responding to climate change and variability, overcoming soil loss, salinity and acidity and sustainable use of Australia's biodiversity.Read moreRead less
Designer Surfactants for Creation of Emulsion Properties. We propose new approaches to the design of surfactants for stabilising water in oil emulsions. New block copolymer surfactants may be "tailored" for head group structure and a pre-chosen hydrophilic/lipophilic balance at the oil-water interface using the Australian developed RAFT polymer synthesis method and polymeric inorganic species. The proposers have an extensive background in these areas.
X-ray and neutron scattering techniques, de ....Designer Surfactants for Creation of Emulsion Properties. We propose new approaches to the design of surfactants for stabilising water in oil emulsions. New block copolymer surfactants may be "tailored" for head group structure and a pre-chosen hydrophilic/lipophilic balance at the oil-water interface using the Australian developed RAFT polymer synthesis method and polymeric inorganic species. The proposers have an extensive background in these areas.
X-ray and neutron scattering techniques, developed by us, allow the interfacial structure of the surfactant to be found and the intellectual "loop" closed in the design process. Preliminary screening will be done using the surface balance and bulk emulsion synthesis.Read moreRead less
High Internal Phase Emulsions - Structure and Rheology Control. Our first SPIRT Grant with ORICA Australia Ltd has successfully identified nanostructures in high internal phase emulsions which confer useful stability and robustness on these industrially important systems. The aim now is to ramify those discoveries both scientifically and technologically in the design of emulsion structure using our, now established, techniques. In particular, the objective is to control both nanoscale and mes ....High Internal Phase Emulsions - Structure and Rheology Control. Our first SPIRT Grant with ORICA Australia Ltd has successfully identified nanostructures in high internal phase emulsions which confer useful stability and robustness on these industrially important systems. The aim now is to ramify those discoveries both scientifically and technologically in the design of emulsion structure using our, now established, techniques. In particular, the objective is to control both nanoscale and mesoscale structure in emulsion formulation, as well as the rheology and stability of emulsion preparations. To do this we plan to use mixed surfactant systems and to study intersurfactant synergic effects on the structure and fluidity of the interfacial material. We believe that the proposed work is unique and that the outcomes will be scientifically novel and also valuable for Australian industry.Read moreRead less
New Surface Coatings Derived from Renewable Resources. In this project we will develop a novel, efficient cross-linking methodology to generate surface coating and adhesive products from inexpensive, renewable, local, natural feedstocks. Potential economic benefits to Australia include the replacement of imported petrochemical feedstocks with Australian agricultural products, the development of high performance products with the potential for export, and the establishment of an intellectual prop ....New Surface Coatings Derived from Renewable Resources. In this project we will develop a novel, efficient cross-linking methodology to generate surface coating and adhesive products from inexpensive, renewable, local, natural feedstocks. Potential economic benefits to Australia include the replacement of imported petrochemical feedstocks with Australian agricultural products, the development of high performance products with the potential for export, and the establishment of an intellectual property portfolio that will lead to opportunities for licensing internationally.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE200100156
Funder
Australian Research Council
Funding Amount
$471,000.00
Summary
A facility for quantification and isotopic analysis of trace gases. This project aims to develop a new facility for the analysis of trace gases, including nitrous oxide, methane, hydrogen, carbon monoxide, and nitric oxide. This will provide two new capabilities for Australia: 1. It will further our ability to study how microbes cycle trace gases across the continuum from arid soils to the coastal ocean; 2. It will allow us to better understand microbial reactions that remove nitrogen pollution. ....A facility for quantification and isotopic analysis of trace gases. This project aims to develop a new facility for the analysis of trace gases, including nitrous oxide, methane, hydrogen, carbon monoxide, and nitric oxide. This will provide two new capabilities for Australia: 1. It will further our ability to study how microbes cycle trace gases across the continuum from arid soils to the coastal ocean; 2. It will allow us to better understand microbial reactions that remove nitrogen pollution. This will allow us to better understand, monitor and manage microbial processes within soils, sediments, and waters that undertake key ecosystem services, including removal of nitrogen and pollutant gases. Read moreRead less
Improving Energy Efficiency through Cool Polymers in Building Materials. The advantages of using cool polymers in industrial applications such as building materials are significant. Cooler buildings are a positive contribution to our global environment with reductions in urban heat and smog through energy efficiency. Moreover, by reducing the overall temperature of the surface coating through inclusion and optimization of IR-reflective pigments, this should lead to polymers which are more durabl ....Improving Energy Efficiency through Cool Polymers in Building Materials. The advantages of using cool polymers in industrial applications such as building materials are significant. Cooler buildings are a positive contribution to our global environment with reductions in urban heat and smog through energy efficiency. Moreover, by reducing the overall temperature of the surface coating through inclusion and optimization of IR-reflective pigments, this should lead to polymers which are more durable when exposed in exterior environments. It is anticipated that the results from this work will have direct impact on the Australian paint market and potentially the commercial and residential building industries of Australia, combined with obvious economic benefits.Read moreRead less
Performance Chemistry of Thermoset Surface Coatings. Surface coatings employed in the COLORBOND® range of pre-painted steel products are remarkable materials that are warranted against fading, peeling and cracking for 25 years. Unfortunately, the desired durability can never be uniform across all applications and performance failures do occur and are costly. Classic durability testing often provides misleading information. This project aims to develop a sound mechanistic model for polyester-is ....Performance Chemistry of Thermoset Surface Coatings. Surface coatings employed in the COLORBOND® range of pre-painted steel products are remarkable materials that are warranted against fading, peeling and cracking for 25 years. Unfortunately, the desired durability can never be uniform across all applications and performance failures do occur and are costly. Classic durability testing often provides misleading information. This project aims to develop a sound mechanistic model for polyester-isocyanate performance chemistry and to develop strategies for 'superdurable polyester' formulations based on these findings. This research will provide recommendations to BHP Coated Steel Australia on adoption of isocyanate based technology in the COLORBOND® range of products.Read moreRead less
Expanding the organometallic toolbox for constructing heterocycles. This project aims to design and synthesise stereospecific cyclic molecules. This is a problem for chemists, particularly when bioactivity and medicinal relevance depend on complex stereochemistry and substitution patterns. This team will build on their discovery of a cascade reaction for synthesising highly stereospecific indolene derivatives. They will target reagents and reaction pathways for creating heterocyclic molecules wh ....Expanding the organometallic toolbox for constructing heterocycles. This project aims to design and synthesise stereospecific cyclic molecules. This is a problem for chemists, particularly when bioactivity and medicinal relevance depend on complex stereochemistry and substitution patterns. This team will build on their discovery of a cascade reaction for synthesising highly stereospecific indolene derivatives. They will target reagents and reaction pathways for creating heterocyclic molecules which are difficult to access. They will synthesise and characterise homo- and hetero-bimetallic complexes to develop cyclic molecules and scaffolds relevant in drug discovery. New molecules and reaction pathways will be relevant for biological and medicinal chemistry, and drug discovery programmes.Read moreRead less
Early main group organometallic complexes and their role in asymmetric synthesis. This project will develop new highly reactive metal based molecular tools for the controlled synthesis of complex molecules which are normally difficult to access, and in so doing advances our synthetic armoury. The design of the reaction pathways and final molecules will have relevance for modern medicinal chemistry and drug discovery programs.