Mid-Career Industry Fellowships - Grant ID: IM230100008
Funder
Australian Research Council
Funding Amount
$889,419.00
Summary
Reinventing compostable packaging. This project aims to develop a new generation of authentically home-compostable packaging materials, focused around meeting immediate and future needs for food packaging. The materials used will be of sustainable origin, helping to decarbonise our packaging industry, and presenting a new paradigm in protecting consumer goods in a more responsible way. In doing so, it is anticipated that Australia will be able to reduce and eventually avoid reliance on single-us ....Reinventing compostable packaging. This project aims to develop a new generation of authentically home-compostable packaging materials, focused around meeting immediate and future needs for food packaging. The materials used will be of sustainable origin, helping to decarbonise our packaging industry, and presenting a new paradigm in protecting consumer goods in a more responsible way. In doing so, it is anticipated that Australia will be able to reduce and eventually avoid reliance on single-use plastic packaging in foods and the environmental problems it causes, without compromising on food safety or freshness.Read moreRead less
Electrical Stimulation Of The Brain For Restoring Vision
Funder
National Health and Medical Research Council
Funding Amount
$1,555,864.00
Summary
This project is focused on the clinical demonstration of the Monash Vision Group’s ‘Gennaris’ cortical prosthesis or bionic eye. The clinical work will demonstrate the use of the Gennaris as a viable medical device that provides useful vision to people with adult-onset profound vision loss in their everyday living environments. This will place MVG in a position to attract funding from investors or commercial partners to perform multi-site clinical trials and obtain regulatory approval.
Sustainable Reversible Polymerisation. This project aims to address the problem of the current lack of efficient chemical recyclability of polymers. For the majority of polymers, no methods exist so far that are scalable and economic at the same time. To reach this aim, we will utilise a mixture of clever chemical concepts with continuous flow engineering. This project expects to generate new knowledge in the area of depolymerisation and chemical recycling methods. The expected outcome of this p ....Sustainable Reversible Polymerisation. This project aims to address the problem of the current lack of efficient chemical recyclability of polymers. For the majority of polymers, no methods exist so far that are scalable and economic at the same time. To reach this aim, we will utilise a mixture of clever chemical concepts with continuous flow engineering. This project expects to generate new knowledge in the area of depolymerisation and chemical recycling methods. The expected outcome of this project is a scalable process and its practical demonstration for full chemical recycling of various polymers used in everyday applications. This will provide a benefit to society as it allows to tackle plastic pollution problems, and creates avenues to green methods in plastic recycling.
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