High shear fluid flow driving carbon foundry for advanced manufacturing (Old ID 28965)
Role
Principal Investigator
Description
The project aims to develop versatile continuous flow film microfluidic device technology by harnessing the contact electrification generated by sub-micron high shear topological flow, for fabricating novel nano-carbon material for which current methods are ineffective or of limited utility. This technology incorporates optional external electric and magnetic fields, and textured surfaces in the rapidly rotating tube, which will allow exquisite control, with real time monitoring, on reforming of carbon into functional material with tunable properties and fabricating hetero-structures of nano-carbon. Understanding their fundamental properties will be targeted for leveraging them in applications to generate new processes and products.
Date
01 Jan 2023 - 31 Dec 2025
Project Type
GRANT
Keywords
Nano-carbon;Composite materials;Advanced Manufacturing;Biomass Processing;Carbon materials
Funding Body
Australian Research Council (ARC)
Amount
196711.99
Project Team
N/A