Biomimetic Design and Fabrication of Smart Dry Adhesives. Gecko footpads have unique structures with amazing features; imitating these fine bio-structures will lead to a multitude of innovations. This project aims to study fundamental principles governing adhesion phenomena for creating entirely new biomimetic nanomaterials with tunable adhesion, self-cleaning and controlled release capabilities. The gecko-mimicking materials and the associated dynamic effects will be characterized quantitativel ....Biomimetic Design and Fabrication of Smart Dry Adhesives. Gecko footpads have unique structures with amazing features; imitating these fine bio-structures will lead to a multitude of innovations. This project aims to study fundamental principles governing adhesion phenomena for creating entirely new biomimetic nanomaterials with tunable adhesion, self-cleaning and controlled release capabilities. The gecko-mimicking materials and the associated dynamic effects will be characterized quantitatively at multiscales and the nanoscale phenomena will be linked to macroscopic performance. The results of this research should provide a fundamental understanding of tunable adhesion mechanisms for the design and development of optimized materials with superb performance of practical significance.
Read moreRead less
Orientated biointerfacing of cell-mimetic nanoparticles. The project aims to create next-generation cell-mimetic nanotechnology by providing in-depth understandings and precise control over cell membrane coating orientation of biomimetic nanoparticles. Our approach is to design and develop new synthetic and analytic strategies to construct and quantify orientated biointerfacing. This will generate new knowledge and patentable methodologies related to orientated biomimetic nanoparticles. Expected ....Orientated biointerfacing of cell-mimetic nanoparticles. The project aims to create next-generation cell-mimetic nanotechnology by providing in-depth understandings and precise control over cell membrane coating orientation of biomimetic nanoparticles. Our approach is to design and develop new synthetic and analytic strategies to construct and quantify orientated biointerfacing. This will generate new knowledge and patentable methodologies related to orientated biomimetic nanoparticles. Expected outcomes include significant contributions to Australia's scholarly outputs, enhanced national capacity in disruptive nanotechnology, new opportunities for national value-add material manufacturing, and long-term benefits to biomedical and veterinary industries through new materials and nanotechnologies.
Read moreRead less