Engineering nanoscale tools for cellular interrogation. The aim is to address fundamental hurdles to engineering seamless nanobiointerfaces between electroactive nanoscale tools and living cells. This

Description

Engineering nanoscale tools for cellular interrogation. The aim is to address fundamental hurdles to engineering seamless nanobiointerfaces between electroactive nanoscale tools and living cells. This is expected to allow efficient delivery of many bioactive cargo types into cells, intracellular sampling of cytosol contents, and probing of action potential, all at the cell—material interface. New, powerful, electroactive nanoscale tools that deliver precise spatio-temporal resolution and minimal invasiveness and perturbation are likely to transform ex-vivo cellular processes. The intended outcomes are crucial for maximising precision in engineering and implementing of ex-vivo cellular processes. Fundamental advances in knowledge may eventually be a platform for developing cell-based therapies. . Scheme: ARC Future Fellowships. Field: 3106 - Industrial Biotechnology. Lead: A/Prof Roey Elnathan