The Australian Research Data Commons (ARDC) invites you to participate in a short survey about your
interaction with the ARDC and use of our national research infrastructure and services. The survey will take
approximately 5 minutes and is anonymous. It’s open to anyone who uses our digital research infrastructure
services including Reasearch Link Australia.
We will use the information you provide to improve the national research infrastructure and services we
deliver and to report on user satisfaction to the Australian Government’s National Collaborative Research
Infrastructure Strategy (NCRIS) program.
Please take a few minutes to provide your input. The survey closes COB Friday 29 May 2026.
Complete the 5 min survey now by clicking on the link below.
ARC Centre of Excellence - Australian Centre for Electromaterials Science. The Centre will tackle some of the biggest challenges facing society: those of renewable energy, sustainable industries and enhancing human health. Improvements in all these areas are possible by developing electromaterials with improved efficiency in the generation and transfer of electrical charge. By developing new nano-materials and new theories to explain their behaviour, the Centre will make advances in the areas ....ARC Centre of Excellence - Australian Centre for Electromaterials Science. The Centre will tackle some of the biggest challenges facing society: those of renewable energy, sustainable industries and enhancing human health. Improvements in all these areas are possible by developing electromaterials with improved efficiency in the generation and transfer of electrical charge. By developing new nano-materials and new theories to explain their behaviour, the Centre will make advances in the areas of human health through the regeneration of damaged nerves (eg. in spinal injury) and development of artificial muscles; in renewable energy (plastic solar cells, lightweight batteries and electronic textiles) and in sustainable industries (recovery of precious metals and new corrosion protection technologies).Read moreRead less
Special Research Initiatives - Grant ID: SR0354535
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
Advanced Electromaterials from Nanomaterials and Biomaterials. The proposed initiative brings together relevant sectors of the nanomaterials, biomaterials and electrochemistry research communities. It is envisaged that the collective complementary expertise will give rise to research opportunities and insights into the emerging work of electro-bio-nano. Scientific and technological challenges that exist in this multidiscipline research space include areas as diverse as the development of more ....Advanced Electromaterials from Nanomaterials and Biomaterials. The proposed initiative brings together relevant sectors of the nanomaterials, biomaterials and electrochemistry research communities. It is envisaged that the collective complementary expertise will give rise to research opportunities and insights into the emerging work of electro-bio-nano. Scientific and technological challenges that exist in this multidiscipline research space include areas as diverse as the development of more efficient nerve cell communication implants, understanding and control of biocorrosion/biofouling and the use of biomimicry to produce more efficient catalysts and artificial muscles.Read moreRead less
ARC Centre for Nanostructured Electromaterials. Electromaterials transport electrons or ions and facilitate charge transfer, underpinning most energy capture/storage processes and cell communication. We propose a national Centre to develop nanostructured electromaterials with exceptional properties. The Centre aims to synthesise novel nanomaterials and assemble them into innovative nanoscale devices. We will exploit these materials to enhance performance in energy conversion/storage systems (eg. ....ARC Centre for Nanostructured Electromaterials. Electromaterials transport electrons or ions and facilitate charge transfer, underpinning most energy capture/storage processes and cell communication. We propose a national Centre to develop nanostructured electromaterials with exceptional properties. The Centre aims to synthesise novel nanomaterials and assemble them into innovative nanoscale devices. We will exploit these materials to enhance performance in energy conversion/storage systems (eg. photovoltaics, batteries, including wearable systems), and novel energy transfer in bioapplications (eg. Bionic Ear). These advances, together with the resource of trained personnel, will assist Australian industry to exploit this exciting area.Read moreRead less
Active polymer surfaces for control of fluid movement. The realisation of a diverse array of remote or portable chemical/biological monitoring systems depends on the development of low power fluid management protocols. The use of appropriate conducting polymer surfaces should enable this to occur. We envisage the integration of these fluid management platforms into portable, remote autonomous monitoring systems for environmental industrial and biomedical applications.
Design and Synthesis of Ionic Liquids for Use in Photoelectrochemical Cells Based on Inherently Conducting Polymers. We propose to evaluate the electrochemistry of photoactive polythiophenes recently synthesised by us in a range of ionic liquids. This knowledge will be used to design and synthesise customised ionic liquids with the properties required to enhance the photoelectrochemical efficiency of devices based on substituted polythiophenes. We expect our findings to lead to the development ....Design and Synthesis of Ionic Liquids for Use in Photoelectrochemical Cells Based on Inherently Conducting Polymers. We propose to evaluate the electrochemistry of photoactive polythiophenes recently synthesised by us in a range of ionic liquids. This knowledge will be used to design and synthesise customised ionic liquids with the properties required to enhance the photoelectrochemical efficiency of devices based on substituted polythiophenes. We expect our findings to lead to the development of low-cost, flexible, organic photoelectrochemical cells.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE130100222
Funder
Australian Research Council
Funding Amount
$180,000.00
Summary
Advanced stopped flow: electron paramagnetic resonance apparatus for measurement of short-lived free radicals in engineering, science and medicine. The facility will enable world class research into complex chemical processes relevant to industry, environmental science and biochemistry. This will result in development of new technologies in explosives, pollution reduction and energy storage, and enhance our understanding of chemical processes that lead to sperm deoxyribonucleic acid (DNA) damage ....Advanced stopped flow: electron paramagnetic resonance apparatus for measurement of short-lived free radicals in engineering, science and medicine. The facility will enable world class research into complex chemical processes relevant to industry, environmental science and biochemistry. This will result in development of new technologies in explosives, pollution reduction and energy storage, and enhance our understanding of chemical processes that lead to sperm deoxyribonucleic acid (DNA) damage and infertility.Read moreRead less
A Generic Solution for Interfacing Electrodes with Biological Media. Electrodes are the critical element of stimulating implantable devices such as cardiac pacemakers, bionic eyes and cochlear implants, the most commercially successful biosensors, and are emerging as key to new technologies for testing new drug leads using cells. In all these applications of electrodes in biology there has never been a solution to stopping unwanted adsorption of biological material onto the electrode that does ....A Generic Solution for Interfacing Electrodes with Biological Media. Electrodes are the critical element of stimulating implantable devices such as cardiac pacemakers, bionic eyes and cochlear implants, the most commercially successful biosensors, and are emerging as key to new technologies for testing new drug leads using cells. In all these applications of electrodes in biology there has never been a solution to stopping unwanted adsorption of biological material onto the electrode that does not dramatically decrease electrode performance. The proposed research finally provides a solution via surface modification. This strategy will enhance the performance of all the devices above and will open doors to new applications of electrochemistry within biology.Read moreRead less
Understanding how nanoconfinement can enhance electrochemical reactions. The aim of this project will be to develop a far greater understanding of the impact of nanoconfinement in electrochemistry. The project will generate this knowledge by fabricating electrodes with well-defined nanoconfined spaces coupled with molecular dynamic and continuum simulations of the electrochemical systems. The expected outcomes will be an understanding the impact of dimensions of the nanoconfined spaces, the surf ....Understanding how nanoconfinement can enhance electrochemical reactions. The aim of this project will be to develop a far greater understanding of the impact of nanoconfinement in electrochemistry. The project will generate this knowledge by fabricating electrodes with well-defined nanoconfined spaces coupled with molecular dynamic and continuum simulations of the electrochemical systems. The expected outcomes will be an understanding the impact of dimensions of the nanoconfined spaces, the surface chemistry of these spaces and the electrolyte solution, a comprehensive understanding of nanoconfinement in electrochemistry. The benefits will be a dramatic improvement in the performance of electrochemical technologies for electrocatalysis, energy storage and sensing.Read moreRead less
Nanobionics. There is no doubt that the realization of new bionic materials capable of functioning at the cellular through to the mechanical level will dramatically improve quality of life for many individuals. For example, the studies proposed here will impact directly on endothelial and muscle cell growth (important for implants such as stents) and nerve cell regeneration (important for peripheral nerve cell and spinal chord repair). The establishment of the research team proposed within the f ....Nanobionics. There is no doubt that the realization of new bionic materials capable of functioning at the cellular through to the mechanical level will dramatically improve quality of life for many individuals. For example, the studies proposed here will impact directly on endothelial and muscle cell growth (important for implants such as stents) and nerve cell regeneration (important for peripheral nerve cell and spinal chord repair). The establishment of the research team proposed within the framework of the ARC Centre of Excellence in Electromaterials Science builds on world class expertise and infrastructure. The end user network in place will ensure all opportunities are exploited to the full extent.Read moreRead less
Metal-air batteries with improved rate capability and safety for hearing applications. Hearing impairment affects on average 20% of the adult population in western society, with the impact being as high as 50% in older adults. Effective hearing devices require a significant amount of power, supplied by a battery, to support their function. Current batteries require very frequent replacement and represent a significant impediment to advances in the technology. This project will develop improved ....Metal-air batteries with improved rate capability and safety for hearing applications. Hearing impairment affects on average 20% of the adult population in western society, with the impact being as high as 50% in older adults. Effective hearing devices require a significant amount of power, supplied by a battery, to support their function. Current batteries require very frequent replacement and represent a significant impediment to advances in the technology. This project will develop improved energy and power density batteries which will lead to immediate implementation of more powerful signal processing algorithms, making hearing aids much more effective and appealing to the user. This, in turn, will improve recipient compliance and thus the quality of life for those with severe hearing impairment. Read moreRead less