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
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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.
Blue energy harvesting and storage technology for wearable electronics. This project aims to develop new self-charging power devices that can harvest and store body energy generated during body motions, and power smart and implantable medical electronics. The project will develop new Piezo-supercapacitors by designing new electrode materials and cell designs. The charge storage and transport kinetics will be uncovered using advanced in-situ characterisation techniques and modern simulation metho ....Blue energy harvesting and storage technology for wearable electronics. This project aims to develop new self-charging power devices that can harvest and store body energy generated during body motions, and power smart and implantable medical electronics. The project will develop new Piezo-supercapacitors by designing new electrode materials and cell designs. The charge storage and transport kinetics will be uncovered using advanced in-situ characterisation techniques and modern simulation methods. The project expects to generate new knowledge in blue energy harvesting and storage systems, training for young scientists, and generate intellectual property with potential commercialised products to be used in implantable devices, placing Australia at the forefront of new technology.Read moreRead less
Targeted synthesis of porous materials towards gas sorption and separation. Targeted synthesis, using a building block strategy and computational design, is an efficient method for controlled synthesis of porous materials. This project uses this method to synthesise porous materials with permanent functional pores for separating and storing fuels and greenhouse gases, addressing demanding energy and environmental problems.
Mechanisms and innovative technologies for machining nanoscale multilayered thin film solar panels. This project addresses an important manufacturing bottleneck in the solar energy industry by addressing significant limitations in machining multilayered solar panels. A successful outcome will provide an important breakthrough in machining technology applicable not only to solar panels but other material science applications.
Understanding dynamic interfaces in electrochemical systems. This project aims to develop nanoscale characterisation methods to understand dynamic processes in zinc-ion batteries and high temperature electrolysis systems under real working (in operando) conditions. This project expects to reveal critical solid-liquid and solid-gas interfacial processes in these two distinctly different electrochemical systems. The expected outcomes include improved understanding of electrochemical interfaces and ....Understanding dynamic interfaces in electrochemical systems. This project aims to develop nanoscale characterisation methods to understand dynamic processes in zinc-ion batteries and high temperature electrolysis systems under real working (in operando) conditions. This project expects to reveal critical solid-liquid and solid-gas interfacial processes in these two distinctly different electrochemical systems. The expected outcomes include improved understanding of electrochemical interfaces and improved tools and methods to observe nanoscale interfacial processes. This information can be used to underpin mechanistic models, which will facilitate new materials design. Read moreRead less
A New Paradigm for Understanding and Improving the Effective Use of Information Systems in Organisations. In an information-based economy, the critical issue for many organisations is how to leverage their information systems effectively. Remarkably, there is almost no detailed research on this topic. This project will address this problem by building a new paradigm for research on the effective use of information systems in organisations. It will involve developing and testing two complementa ....A New Paradigm for Understanding and Improving the Effective Use of Information Systems in Organisations. In an information-based economy, the critical issue for many organisations is how to leverage their information systems effectively. Remarkably, there is almost no detailed research on this topic. This project will address this problem by building a new paradigm for research on the effective use of information systems in organisations. It will involve developing and testing two complementary theories of effective use and designing and testing a novel intervention to facilitate more effective use in an organisation. To maximise academic and practical value, it involves a rigorous program of empirical work in the information-intensive industries of Healthcare and Information Systems Auditing in Australia and Canada. Read moreRead less
Real-time Event Detection, Prediction, and Visualization for Emergency Response. This project proposes novel end-to-end methods for real-time recognition and prediction of real-world events, leading to timely response to emergencies such as disease outbreaks and natural disasters, as well as prevention of crime, security breaches and the like. It will develop new techniques to quickly detect and predict events by incorporating adaptive learning and probabilistic models, and address fusion and sc ....Real-time Event Detection, Prediction, and Visualization for Emergency Response. This project proposes novel end-to-end methods for real-time recognition and prediction of real-world events, leading to timely response to emergencies such as disease outbreaks and natural disasters, as well as prevention of crime, security breaches and the like. It will develop new techniques to quickly detect and predict events by incorporating adaptive learning and probabilistic models, and address fusion and scalability factors to handle vast collections of heterogeneous data. An event surveillance system prototype will be developed to incorporate the findings of the research with tools to visualise and describe events.Read moreRead less
Solar rechargeable batteries for wearable electronics. This project aims to develop a new solar battery as a sustainable power source for future wearable electronics. The research will develop solar rechargeable Zinc-Manganese oxide batteries based on new stretchable microelectrodes and materials engineering for the direct storage of solar energy. Expected outcomes include new classes of planar-type solar batteries, functional microelectrodes and energy materials, as well as new knowledge genera ....Solar rechargeable batteries for wearable electronics. This project aims to develop a new solar battery as a sustainable power source for future wearable electronics. The research will develop solar rechargeable Zinc-Manganese oxide batteries based on new stretchable microelectrodes and materials engineering for the direct storage of solar energy. Expected outcomes include new classes of planar-type solar batteries, functional microelectrodes and energy materials, as well as new knowledge generated from collaborations across materials science, photoelectrochemistry and nanotechnology disciplines. These will not only expand the applications of solar batteries to a new domain of wearable electronics, but also may eventually lead to new industry advances in functional materials for clean energy.Read moreRead less
Electronic functionality in nanoscale materials: from discovery to design. This project will develop innovative multifunctional carbon/boron-nitride nanomaterials by devising new strategies to manipulate their electronic functionality. Outcomes will include technological breakthroughs leading to smart materials for energy storage, greenhouse gas emission reduction and nanoelectronics.
Carbon-based electrode materials for electrochemical energy storage and water desalination. Clean energy and water resource are two critical issues for an environmentally sustainable Australia. The research project will lead to the discovery of innovative carbon-based electrode materials with well-designed physical and chemical properties for clean energy storage and alternative water desalination technology.
Realising the value of mobile videos with context awareness. Innovative approaches to analysing online video content and context will lead to new ways of interacting with video in the mobile world. This project will aim to develop real-time mobile systems for enabling rich and highly dynamic digital video experiences through context-aware indexing, retrieval and consumption of mobile videos.