Early Career Industry Fellowships - Grant ID: IE230100169
Funder
Australian Research Council
Funding Amount
$457,684.00
Summary
Next-generation mRNA manufacturing and analysis technologies. Developing innovations in RNA manufacturing and technology. The project aims to develop cutting-edge manufacturing and analysis technologies by optimising Self-amplifying (SAM) RNA production towards low impurities, creating reliable purification technologies, and filling critical gaps in RNA analysis. The project expects to yield significantly cheaper, higher-quality RNA products and develop novel methods in RNA analysis. The outcome ....Next-generation mRNA manufacturing and analysis technologies. Developing innovations in RNA manufacturing and technology. The project aims to develop cutting-edge manufacturing and analysis technologies by optimising Self-amplifying (SAM) RNA production towards low impurities, creating reliable purification technologies, and filling critical gaps in RNA analysis. The project expects to yield significantly cheaper, higher-quality RNA products and develop novel methods in RNA analysis. The outcomes are expected to revolutionise RNA manufacturing, develop cutting-edge commercialisable IP, scholarly know-how, and galvanise the Australian biomanufacturing sector towards sovereign capability, biosecurity and commercialisation of new animal, human and plant RNA products.Read moreRead less
Early Career Industry Fellowships - Grant ID: IE230100678
Funder
Australian Research Council
Funding Amount
$438,572.00
Summary
A Digital Twin-Driven Model for Mapping Part Quality in Multi-Jet Fusion. This project aims to develop a digital simulation model to address the irregular mechanical properties of Multi-Jet Fusion in 3D printing of automotive components. This model expects to solve a significant challenge when using Multi-Jet Fusion which is the dependence of quality on the build position. The expected outcome of this project is the development of a novel tool for quality assessment in mass customisation and pro ....A Digital Twin-Driven Model for Mapping Part Quality in Multi-Jet Fusion. This project aims to develop a digital simulation model to address the irregular mechanical properties of Multi-Jet Fusion in 3D printing of automotive components. This model expects to solve a significant challenge when using Multi-Jet Fusion which is the dependence of quality on the build position. The expected outcome of this project is the development of a novel tool for quality assessment in mass customisation and production. This project will provide significant benefits by creating an independent digital simulation model for quality mapping in Multi-Jet Fusion that reduces production costs and enhances automotive part quality.Read moreRead less