Designing a Holistic Model of Advice to Improve Retirement Planning. We aim to improve retirement planning through the design and application of a new model integrating financial advice with career and health planning to optimise financial and psychological outcomes. We will test a multidisciplinary, holistic model of advice combining specialist knowledge in careers, health, and finances. Expected outcomes of the project include evaluating the use of a broader range of experts during retirement ....Designing a Holistic Model of Advice to Improve Retirement Planning. We aim to improve retirement planning through the design and application of a new model integrating financial advice with career and health planning to optimise financial and psychological outcomes. We will test a multidisciplinary, holistic model of advice combining specialist knowledge in careers, health, and finances. Expected outcomes of the project include evaluating the use of a broader range of experts during retirement planning and developing a model for the future training and development of financial advisers.By optimising the timing of workplace exit, we aim to decrease reliance on pensions and encourage earlier and on-going engagement in the retirement planning process. This will provide significant social and economic benefits.Read moreRead less
Counting the Electrons: Nickel Catalysed Electrochemical C-H Activation. Modern chemical synthetic methods using organometallic catalysts are highly prized in chemical industry and provide a multibillion dollar driver for world economies. However, traditional catalysis is expensive because of the reliance on rare earth metals often conjunction with toxic additives or reagents. The aim of this work is to develop new inexpensive transition metal catalysts based on earth abundant nickel and harness ....Counting the Electrons: Nickel Catalysed Electrochemical C-H Activation. Modern chemical synthetic methods using organometallic catalysts are highly prized in chemical industry and provide a multibillion dollar driver for world economies. However, traditional catalysis is expensive because of the reliance on rare earth metals often conjunction with toxic additives or reagents. The aim of this work is to develop new inexpensive transition metal catalysts based on earth abundant nickel and harness the power of electrons through electrochemistry to dramatically improve the reactivity of these catalysts. This project will seek to improve the way both complex and commonly used chemicals constructed through an atom economical process with potentially renewably produced electrons.Read moreRead less
New Chiral Metal Catalysts; Going Beyond the State of the Art. The synthesis of both natural and unnatural organic compounds in optically active form is a central challenge in chemistry. Because the most important molecules in nature are chiral and of specific handedness, there exists a growing need to access any given organic compound in its optically pure form. Asymmetric catalysis offers the most elegant way to solving this problem and this project will target some of the difficult challenges ....New Chiral Metal Catalysts; Going Beyond the State of the Art. The synthesis of both natural and unnatural organic compounds in optically active form is a central challenge in chemistry. Because the most important molecules in nature are chiral and of specific handedness, there exists a growing need to access any given organic compound in its optically pure form. Asymmetric catalysis offers the most elegant way to solving this problem and this project will target some of the difficult challenges in realising asymmetric synthesis, building new, privileged chiral ligands, opening new catalytic pathways for constructing chiral compounds and understanding the intimate catalytic pathway that enables reactivity and selectivity. This will generate applications across the chemical industries.Read moreRead less
Inspiring Indigenous youth to build resilience and sustain participation with education and employment: the role of targeted mentoring support . This project will develop a model illustrating the attributes and effectiveness of a mentoring program to enhance resilience, and education and employment prospects for Indigenous youth will be developed. The model will inform practice and contribute policy-relevant knowledge toward Government targets of improving Year 12 attainment rates and employment ....Inspiring Indigenous youth to build resilience and sustain participation with education and employment: the role of targeted mentoring support . This project will develop a model illustrating the attributes and effectiveness of a mentoring program to enhance resilience, and education and employment prospects for Indigenous youth will be developed. The model will inform practice and contribute policy-relevant knowledge toward Government targets of improving Year 12 attainment rates and employment outcomes.Read moreRead less
Molecular Switching and Moore. Electronics technology is coming up against significant fabrication challenges. The international semiconductor community has identified molecular electronics and molecular switches as potential future technologies that can help to alleviate these growing integration challenges. This project will explore and develop a number of novel molecular switches to meet this coming need. The switches will be assessed and screened through spectroelectrochemical and computati ....Molecular Switching and Moore. Electronics technology is coming up against significant fabrication challenges. The international semiconductor community has identified molecular electronics and molecular switches as potential future technologies that can help to alleviate these growing integration challenges. This project will explore and develop a number of novel molecular switches to meet this coming need. The switches will be assessed and screened through spectroelectrochemical and computational studies of intramolecular electron transfer in mixed-valence model complexes, before migrating the most promising designs into metal-molecule-metal junctions for further assessment.Read moreRead less
New platforms for molecular electronics. Molecular electronics involves the integration of molecules with solid-state electronics and is seen as an answer to the growing need for ultradense and ultrafast computation. This project will design molecular-based components specifically intended for solid-state applications, such as molecular-based memory.
Discovery Early Career Researcher Award - Grant ID: DE230100978
Funder
Australian Research Council
Funding Amount
$406,818.00
Summary
A new Iron Age! Making Iron complexes fit for C-C cross-coupling catalysis. This project aims to develop new iron catalysts as alternatives to the expensive and increasingly rare noble metals currently used in C-C bond forming reactions, the most important single-step in the fine-chemicals sector.
This project expects to create a flexible yet robust framework by introducing a hemilabile ligand into the backbone of the iron complex to control the number of vacant coordination sites.
Expected outc ....A new Iron Age! Making Iron complexes fit for C-C cross-coupling catalysis. This project aims to develop new iron catalysts as alternatives to the expensive and increasingly rare noble metals currently used in C-C bond forming reactions, the most important single-step in the fine-chemicals sector.
This project expects to create a flexible yet robust framework by introducing a hemilabile ligand into the backbone of the iron complex to control the number of vacant coordination sites.
Expected outcomes of this project are 1) iron complexes able to catalyse biaryl couplings from sustainable substrates and 2) knowledge on structure-property relationships of iron-based catalytic processes.
Australia will benefit by applying its own resources and help preserving the valuable noble metals for processes relying on them.Read moreRead less
From the Electronics of Molecules to Molecular Electronics. Decades of societal progress have been achieved through advances in semiconductor technology during what might be termed the Silicon Revolution. The International Technology Roadmap for Semiconductors has identified molecular components as a solution to problems including data storage and very high-density circuits over the next 15 - 20 years. This project will target some of the difficult challenges in realising molecular electronics t ....From the Electronics of Molecules to Molecular Electronics. Decades of societal progress have been achieved through advances in semiconductor technology during what might be termed the Silicon Revolution. The International Technology Roadmap for Semiconductors has identified molecular components as a solution to problems including data storage and very high-density circuits over the next 15 - 20 years. This project will target some of the difficult challenges in realising molecular electronics technology: molecular contacts to surfaces; function beyond the wire; transistor-like response. This project brings together an international team with expertise in chemical synthesis, electronic structure determination and single molecule conductance measurements to address these challenges. Read moreRead less
Illuminating Molecular Electronic Rectification. This project aims to develop molecular rectifiers incorporating organometallic complexes for future electronics applications. The organometallic molecules will be an integral part of the electronic device to ameliorate the technological problems arising from miniaturisation of semiconductors. Expected outcomes are a new approach to molecular designs that provide a rectifying response in single molecules and large area molecular junctions. This sho ....Illuminating Molecular Electronic Rectification. This project aims to develop molecular rectifiers incorporating organometallic complexes for future electronics applications. The organometallic molecules will be an integral part of the electronic device to ameliorate the technological problems arising from miniaturisation of semiconductors. Expected outcomes are a new approach to molecular designs that provide a rectifying response in single molecules and large area molecular junctions. This should build manufacturing capacity in Australia and enhance international collaboration and reputation by addressing significant challenges in molecular electronics. Benefits arising include skilled researchers, internationalisation of Australian research and contributions to fundamental science.Read moreRead less
Controlling precipitation processes in the production of value-added zirconia. Doral Specialty Chemicals produces specialised zirconia products from zircon sands mined in WA. Doping the zirconia with metals such as yttrium and aluminium can produce advanced ceramics, with applications in areas such as solid oxide fuel cells and oxygen sensors. The aim of this project is to improve the fundamental understanding of the chemistry in the initial processing steps, so that the process can be readily m ....Controlling precipitation processes in the production of value-added zirconia. Doral Specialty Chemicals produces specialised zirconia products from zircon sands mined in WA. Doping the zirconia with metals such as yttrium and aluminium can produce advanced ceramics, with applications in areas such as solid oxide fuel cells and oxygen sensors. The aim of this project is to improve the fundamental understanding of the chemistry in the initial processing steps, so that the process can be readily modified to produce new doped zirconia ceramics, without the extensive empirical process development currently required. The resulting ability to quickly produce new compositions on a commercial scale will put this industry in a world-leading position, dramatically increasing the added value of the zirconia products.Read moreRead less