Organometallic Transformations of Organic Compounds. The program will develop new metal-based catalysts for two main purposes (i) transforming basic hydrocarbons eg. natural gas and low-molecular-weight petroleum products into more advanced compounds (such as alcohols, alkenes and carboxylic acids); and (ii) converting nitrogen gas into nitrogen-containing compounds eg. ammonia or ammonia derivatives. In both projects, the aim is to take readily available and abundant starting materials that ar ....Organometallic Transformations of Organic Compounds. The program will develop new metal-based catalysts for two main purposes (i) transforming basic hydrocarbons eg. natural gas and low-molecular-weight petroleum products into more advanced compounds (such as alcohols, alkenes and carboxylic acids); and (ii) converting nitrogen gas into nitrogen-containing compounds eg. ammonia or ammonia derivatives. In both projects, the aim is to take readily available and abundant starting materials that are currently difficult to utilise and to design and develop specific reagents to convert them to "value-added" products. The program will also explore the mode of action of metal-based reagents leading to better reagent and catalyst design.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0239647
Funder
Australian Research Council
Funding Amount
$290,000.00
Summary
Infrared chemical imaging and high temperature emission spectroscopy facility. Infrared spectroscopic imaging uses infrared radiation to analyse the chemical properties of microscopic samples in a fast and powerful manner. The images produced provide information about the different molecular chemistry at each pixel in the image. This is one of the latest and perhaps most important developments in vibrational spectroscopy, with wide applications in materials science, forensic science and the biol ....Infrared chemical imaging and high temperature emission spectroscopy facility. Infrared spectroscopic imaging uses infrared radiation to analyse the chemical properties of microscopic samples in a fast and powerful manner. The images produced provide information about the different molecular chemistry at each pixel in the image. This is one of the latest and perhaps most important developments in vibrational spectroscopy, with wide applications in materials science, forensic science and the biological sciences. It is an exceptional tool for the analysis of heterogeneous solids, whether these be seized drug samples, cancer cells, fibres left at a crime scene, layers of paint from a car or a Monet painting, or polymer blends.Read moreRead less
Metallographitic Discs as New Materials. Materials science plays a pivotal role in determining and improving economic performance and quality of life. While application of materials is the ultimate goal, basic understanding of a material's behaviour from the atomic/nano-level to macrostructural level is also of critical importance. This project builds upon the recent success of soluble, well-defined carbon discs in molecular electronics, through the preparation and study of metal-containing deri ....Metallographitic Discs as New Materials. Materials science plays a pivotal role in determining and improving economic performance and quality of life. While application of materials is the ultimate goal, basic understanding of a material's behaviour from the atomic/nano-level to macrostructural level is also of critical importance. This project builds upon the recent success of soluble, well-defined carbon discs in molecular electronics, through the preparation and study of metal-containing derivatives as new advanced crystalline and liquid crystalline materials. The possibility of enhanced electronic, optical and/or magnetic properties, along with good processability, make these materials potential candidates as the active component of future, technologically important devices.Read moreRead less
Universal immunogenic reagents for the detection of latent fingermarks. This project will deliver the first antibody reagents for the routine detection of natural fingermarks. This will assist law enforcement agencies to provide a safer society through improved crime clearance, as they will be able to enhance and detect fingermarks that otherwise remain undetected with current techniques (e.g. fingermarks on human skin).
Reactions of Coordinated Dinitrogen. The program will develop novel metal-based catalysts and reagents that will transform nitrogen gas into ammonia and other nitrogen-containing compounds (nitrogen fixation). This fundamental chemical transformation underpins major chemical industries and this new approach using organometallic catalysts will significantly improve the efficiency of ammonia production and reduce the energy and harsh reaction conditions currently required. This program will desi ....Reactions of Coordinated Dinitrogen. The program will develop novel metal-based catalysts and reagents that will transform nitrogen gas into ammonia and other nitrogen-containing compounds (nitrogen fixation). This fundamental chemical transformation underpins major chemical industries and this new approach using organometallic catalysts will significantly improve the efficiency of ammonia production and reduce the energy and harsh reaction conditions currently required. This program will design catalysts with multiple complementary metal centres tailored to bind and activate nitrogen gas to facilitate its reaction with hydrogen or other reagents.Read moreRead less
Development of novel environmentally benign technologies for the control of bacterial biofilms in industrial applications. Bacteria will attach to and form biofilms on almost all surfaces. This is particularly a problem in moist environments, including food preparation surfaces, pipe networks (eg. water, oil, and gas), water purification systems. The effects of bacterial biofilms are wide ranging and impact on human health, our capacity to use water resources effectively, and the environment w ....Development of novel environmentally benign technologies for the control of bacterial biofilms in industrial applications. Bacteria will attach to and form biofilms on almost all surfaces. This is particularly a problem in moist environments, including food preparation surfaces, pipe networks (eg. water, oil, and gas), water purification systems. The effects of bacterial biofilms are wide ranging and impact on human health, our capacity to use water resources effectively, and the environment where toxic chemicals are normally used to kill the biofilm. The technologies under development here have the potential to reduce our reliance on toxic chemicals as well as contribute to significant reductions in the cost to purify and distribute vital resources such as water as well as reducing bacterial contamination food surfaces.Read moreRead less
Why is ColorbondR steel greener on the other side of the fence? Designing additives to retard weathering of surface coatings. COLORBONDR steel, the flagship pre-painted steel product of BlueScope Steel Limited, has become an iconic part of both suburban and outback landscapes whether installed as roofing, walling or water conservation accessories (tanks, down-pipes etc). This proposal aims to provide a detailed understanding of molecular level changes in COLORBONDR steel surface coatings brought ....Why is ColorbondR steel greener on the other side of the fence? Designing additives to retard weathering of surface coatings. COLORBONDR steel, the flagship pre-painted steel product of BlueScope Steel Limited, has become an iconic part of both suburban and outback landscapes whether installed as roofing, walling or water conservation accessories (tanks, down-pipes etc). This proposal aims to provide a detailed understanding of molecular level changes in COLORBONDR steel surface coatings brought about by levels of heat and radiation encountered in-service. These insights will lead to further improvements in both lifetime and aesthetic durability of COLORBONDR steel, ensuring continuing economic success of BlueScope in the domestic building market with consequent benefits to manufacturing communities throughout the supply-chain nationwide.Read moreRead less
Charging transition metals with activating alkanes. The project aims to engineer positively charged metal complexes and use them to explore the chemistry of bound activated alkane ligands. The transformation of cheap, plentiful alkanes into more valuable products is a major quest in chemistry, and complexes of alkanes bound to metals are expected to play a key role in transformations of alkanes. The project intends to use the activated metal bound alkane to transform the normally inert alkane in ....Charging transition metals with activating alkanes. The project aims to engineer positively charged metal complexes and use them to explore the chemistry of bound activated alkane ligands. The transformation of cheap, plentiful alkanes into more valuable products is a major quest in chemistry, and complexes of alkanes bound to metals are expected to play a key role in transformations of alkanes. The project intends to use the activated metal bound alkane to transform the normally inert alkane into compounds with desirable functional groups. This should make the synthesis of alkane complexes stable at room temperature in solution a realistic possibility. These cheap, plentiful alkanes can be turned into more valuable products, bringing benefits to industry.Read moreRead less
Resolving Critical Knowledge Gaps Relating to Light and Free-Radical Mediated Transformations of Iron and Copper in Oxic Natural Waters. Understanding the transformation kinetics of iron and copper species is critical to maintaining Australia's water resources since i) iron transformations are key to generation and transport of acid in Australia's coastal environment; ii) growth of toxic algae are stimulated by dissolution of iron-rich sediments with subsequent release of nutrients phosphorus an ....Resolving Critical Knowledge Gaps Relating to Light and Free-Radical Mediated Transformations of Iron and Copper in Oxic Natural Waters. Understanding the transformation kinetics of iron and copper species is critical to maintaining Australia's water resources since i) iron transformations are key to generation and transport of acid in Australia's coastal environment; ii) growth of toxic algae are stimulated by dissolution of iron-rich sediments with subsequent release of nutrients phosphorus and iron, and iii) algal toxicity is related to iron and copper nutrition and interplay of these metals with oxygen. Additionally, global cycles of carbon, phosphorus and nitrogen are influenced by iron and copper interactions with light and oxygen. Improved understanding of these processes should lead to an awareness of how to prevent these problems and, if they occur, approaches to their mitigation.Read moreRead less
Single walled carbon nanotubes of one stereochemistry - material for the oncoming carbon age. Carbon nanotubes are finding application in nanotechnology. However currently they are prepared as a mixture of zig-zag, chiral and armchair isomers. Their properties could be improved if they could be prepared with one stereochemistry. The approach here is to use a nanocrystallisation and thermal maturation process involving stereo controlling additives. The new carbons are expected to have outstandin ....Single walled carbon nanotubes of one stereochemistry - material for the oncoming carbon age. Carbon nanotubes are finding application in nanotechnology. However currently they are prepared as a mixture of zig-zag, chiral and armchair isomers. Their properties could be improved if they could be prepared with one stereochemistry. The approach here is to use a nanocrystallisation and thermal maturation process involving stereo controlling additives. The new carbons are expected to have outstanding flexibility and strength and novel thermal and electrical properties. The new products could give Australia a lead in new battery, hydrogen storage, flat screen technology and nanoelectronics.Read moreRead less