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.
Smart affinity membranes for manufacture of high value therapeutic proteins. This project aims to develop next generation separation membranes for production of high-value proteins from serum. Through a combination of innovative chemistries, biotechnology and engineering, the project will enhance production, efficiency and resolution of membranes for separating complex mixtures, thereby contributing to broader understanding in membrane science. By establishing a strong collaborative link between ....Smart affinity membranes for manufacture of high value therapeutic proteins. This project aims to develop next generation separation membranes for production of high-value proteins from serum. Through a combination of innovative chemistries, biotechnology and engineering, the project will enhance production, efficiency and resolution of membranes for separating complex mixtures, thereby contributing to broader understanding in membrane science. By establishing a strong collaborative link between academic and industry researchers, this project has the potential to significantly value-add to existing and exciting Australian technology by enhancing the efficiency of plasma fractionation, improving isolation of large molecules from complex media and by improving the downstream manufacturing and bioprocessing pipeline. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100094
Funder
Australian Research Council
Funding Amount
$220,000.00
Summary
Macromolecular characterisation and purification facility. In-depth characterisation of (bio)macromolecules and nanomaterials is fundamental to understanding their properties and application to advanced materials and technologies. The three new instruments at this facility dedicated to the purification, separation and characterisation of these compounds will provide an essential resource for polymer/materials research.
Controlled Supramolecular Assembly in Aqueous Molecular and Macroscopic Systems. This project uses benign and mainly bio-degradable materials to produce hydrogels which are remarkable new materials containing at least ninety-eight percent water which may be made into films. Similar films are proving to be valuable in covering wounds, particularly serious burns, and in greatly improving wound healing and tissue growth. They may also be useful in new coating and aircraft de-icing technologies. The ....Controlled Supramolecular Assembly in Aqueous Molecular and Macroscopic Systems. This project uses benign and mainly bio-degradable materials to produce hydrogels which are remarkable new materials containing at least ninety-eight percent water which may be made into films. Similar films are proving to be valuable in covering wounds, particularly serious burns, and in greatly improving wound healing and tissue growth. They may also be useful in new coating and aircraft de-icing technologies. These environmentally friendly materials are likely to find a multitude of uses as their development progresses. Young Australians involved in the project will gain experience in cutting edge science, its practical applications, and in international collaboration - a training essential to Australia's future prosperity.Read moreRead less
Light-Driven Chemistry with Nanostructured Polyanilines. This project seeks to understand and exploit the rich photochemistry for an important class of electrically conducting polymers, namely polyanilines. Light stimulated electron transfer events will be employed in a wide range of exciting applications. The new fundamental knowledge gained will be used to design novel photochemical routes to functionalised polyanilines. The ability to produce solutions, films and especially nanoparticles of p ....Light-Driven Chemistry with Nanostructured Polyanilines. This project seeks to understand and exploit the rich photochemistry for an important class of electrically conducting polymers, namely polyanilines. Light stimulated electron transfer events will be employed in a wide range of exciting applications. The new fundamental knowledge gained will be used to design novel photochemical routes to functionalised polyanilines. The ability to produce solutions, films and especially nanoparticles of polyanilines as photo-catalysts should result in novel light-driven processes of industrial/environmental significance (eg. reduction of carbon dioxide), as well as new light-promoted electronic communication with important biological molecules.Read moreRead less
Complex nano-systems for highly selective imaging and targeting of cells. The aim of the project is to design multi-functional nanoparticles that can be tracked by multiple bio-imaging techniques, such as magnetic resonance imaging (MRI) and positron emission tomography imaging. The nanoparticles are designed to be targetable to specific cell populations and capable of delivering drugs. The project plans to concentrate the MRI-active gadolinium into nanoparticles to generate enhanced images, and ....Complex nano-systems for highly selective imaging and targeting of cells. The aim of the project is to design multi-functional nanoparticles that can be tracked by multiple bio-imaging techniques, such as magnetic resonance imaging (MRI) and positron emission tomography imaging. The nanoparticles are designed to be targetable to specific cell populations and capable of delivering drugs. The project plans to concentrate the MRI-active gadolinium into nanoparticles to generate enhanced images, and to combine this with other imaging modalities to facilitate tracking and sensitivity. Expected outcomes would enable a new approach to extremely accurate and sensitive imaging of tumours to enable the imaging of much smaller tumours than currently possible. This would allow early therapeutic intervention. The nanoparticles are also designed to deliver a therapeutic payload to specific locations, avoiding systemic delivery of toxic anticancer drugs.Read moreRead less
Photochemical Design of Microstructured Aerospace Materials. Commercial aviation and shipping spend over US$300 billion on fuel and emit almost 3 billion tonnes of carbon dioxide annually at an enormous environmental cost. This project will provide the material chemistry innovation basis for the production of drag reduction surfaces that can be applied to enable a more effective airflow over an aircraft, thus reducing fuel consumption. Critically, the material design approach will not only deliv ....Photochemical Design of Microstructured Aerospace Materials. Commercial aviation and shipping spend over US$300 billion on fuel and emit almost 3 billion tonnes of carbon dioxide annually at an enormous environmental cost. This project will provide the material chemistry innovation basis for the production of drag reduction surfaces that can be applied to enable a more effective airflow over an aircraft, thus reducing fuel consumption. Critically, the material design approach will not only deliver a high performance coating for the production of drag reduction surfaces, but allow these surfaces to be tailored to specific application profiles including UV resistance and anti-fouling properties. The project will place an Australian company at the forefront of drag reduction technologyRead moreRead less
Nanostructured anticorrosive coating for wave energy conversion module. The project will develop new high performance anticorrosion coatings for metal structures, such as a Waverider- a patented wave energy conversion module. It will deliver a strong intellectual property position in the frontier anti-corrosion technology to Australian Industry and train young scientists in the emerging and multidisciplinary field of research.
Structural understanding of the degradation of glucose polymers. Understanding starch and glycogen breakdown at the molecular level is important for human nutrition and health. The understanding from this project will lead to new means for the control and mitigation of nutritional diseases, such as diabetes and obesity, as well as improved foods.
Engineered nanoassmblies for energy conversion. This research will lead to development of clean energy technology that can compete with the traditional energy sources without subsidies, and facilitate long-term solution to the energy crisis and global warming. It will also bring significant benefit to Australian industries and economy and assist achievement of renewable energy target.
Light-activated Bioconjugates for Applications in Synthesis and Biosensing. This project will allow the Australian biotechnology industry to develop better diagnostic biosensors that are controlled using light, making them cheaper and faster than the current generation of electronically controlled biosensors. Improvements in the response time of biosensors can be a matter of life and death, for instance, during a surgical operation. The project will benefit the pharmaceutical industry as it will ....Light-activated Bioconjugates for Applications in Synthesis and Biosensing. This project will allow the Australian biotechnology industry to develop better diagnostic biosensors that are controlled using light, making them cheaper and faster than the current generation of electronically controlled biosensors. Improvements in the response time of biosensors can be a matter of life and death, for instance, during a surgical operation. The project will benefit the pharmaceutical industry as it will allow the making of so-called chiral drugs cheaper and safer but problems with the purity of chiral drugs have in the past caused serious side-effects such as in the tragic case of thalidomide.Read moreRead less