A New Platform of Bio-inspired Nanoparticles for Enhanced Cellular Delivery. Delivery of various molecules into cells is crucial in modern medicine. Compared to viral vectors, non-viral vectors are safer delivery vehicles, but their delivery efficiency must be improved before they can be broadly used. Inspired by the surface topography of viruses with high infectivity, this project aims to provide a fundamental understanding of the impact of surface roughness on cellular delivery efficiency; and ....A New Platform of Bio-inspired Nanoparticles for Enhanced Cellular Delivery. Delivery of various molecules into cells is crucial in modern medicine. Compared to viral vectors, non-viral vectors are safer delivery vehicles, but their delivery efficiency must be improved before they can be broadly used. Inspired by the surface topography of viruses with high infectivity, this project aims to provide a fundamental understanding of the impact of surface roughness on cellular delivery efficiency; and to use this knowledge in the designed synthesis of a new family of bio-inspired non-viral nanoparticles with both safety and high cellular delivery efficiency. The new and high performance nano-carriers will become a platform technology with broad bio-applications in gene therapy, cancer therapy and bio-imaging.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE170100174
Funder
Australian Research Council
Funding Amount
$193,000.00
Summary
Acoustic levitation facility for high pressure multiphase systems research. This project aims to create a specialised acoustic levitation facility that delivers precise control of a suspended particle/droplet/bubble within a high pressure continuous phase, and simultaneous measurement of multiple bulk and interfacial properties. Acoustic levitation enables container-less experiments, offering opportunities for applied engineering and fundamental science. This acoustic levitation system will be i ....Acoustic levitation facility for high pressure multiphase systems research. This project aims to create a specialised acoustic levitation facility that delivers precise control of a suspended particle/droplet/bubble within a high pressure continuous phase, and simultaneous measurement of multiple bulk and interfacial properties. Acoustic levitation enables container-less experiments, offering opportunities for applied engineering and fundamental science. This acoustic levitation system will be integrated with a specialised Raman imaging microscope to study crystallisation, mass transfer and molecular exchange, in application areas including energy transport, carbon capture and storage, and protein nucleation. This project is expected to open new avenues in engineering, chemistry and physics.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE210101666
Funder
Australian Research Council
Funding Amount
$395,588.00
Summary
Engineering nanoparticles with enhanced adhesion at the nano-bio interfaces. This project aims to develop a next-generation adhesive nanoparticle platform through in-depth understandings of nanoparticle interactions with bio-interfaces. This project expects to generate new knowledge in the multidisciplinary research field at nano-bio-interfaces by using a recently developed nano-colloidal probe technology, instructing the rational design of nanoparticles with enhanced interface adhesive properti ....Engineering nanoparticles with enhanced adhesion at the nano-bio interfaces. This project aims to develop a next-generation adhesive nanoparticle platform through in-depth understandings of nanoparticle interactions with bio-interfaces. This project expects to generate new knowledge in the multidisciplinary research field at nano-bio-interfaces by using a recently developed nano-colloidal probe technology, instructing the rational design of nanoparticles with enhanced interface adhesive properties. Expected outcomes include a family of adhesive nanoparticles designed for nanopesticide and animal feed applications, with the potential to deliver valuable intellectual property of commercial interest and economic benefit through technology advancement.Read moreRead less
Engineering improved technology for nanoparticle-based adjuvant manufacture. Over the next decade nanotechnology will redefine vaccines for animal and human health. Nanoparticle adjuvants will boost engineered vaccines that use minimal antigens such as recombinant proteins and synthetic peptides. This project aims to develop a platform technology for making and controlling the properties of inulin nanoparticles by optimising the engineering and manufacturing aspects of inulin nanoparticles to fu ....Engineering improved technology for nanoparticle-based adjuvant manufacture. Over the next decade nanotechnology will redefine vaccines for animal and human health. Nanoparticle adjuvants will boost engineered vaccines that use minimal antigens such as recombinant proteins and synthetic peptides. This project aims to develop a platform technology for making and controlling the properties of inulin nanoparticles by optimising the engineering and manufacturing aspects of inulin nanoparticles to fundamentally understand the relationship between physical-chemical properties and efficacy. Completion of this project aims to produce potent nanoparticle-based adjuvants underpinned by novel manufacturing technology, to ultimately facilitate the development of more effective and protective vaccines for animals and humans.Read moreRead less
Nanostructured dairy powder for improved functionality. More than 30 per cent of the total milk produced in Australia is converted to powder for export. This project will lead to improvement in the solubility, and hence shelf-life, of protein rich dairy powders which will be of significant economic benefit to the industry. This project will also benefit the wider scientific community in dairy and food sectors.