The Flinders University team in South Australia has partnered with Swinburne University of Technology in Victoria, Australian Stock Exchange-listed First Graphene Lt, and manufacturer Kremford Pty Ltd.
The collaboration is developing a GO-powered battery, a super-capacity energy storage alternative to emerging lithium-ion battery (LIB) technology.
Graphene is the lightest, strongest, most electrically conductive material available and has been predicted to generate revolutionary new products in many industry sectors. But so far unreliable quality and poor manufacturing processes has prevented an industrial graphene market.
In 2015, Flinders University scientists were awarded an Ig Nobel Award for creating the Vortex Fluidic Device and using it to unboil an egg.
The device has also been used to accurately slice carbon nanotubes to an average length of 170 nanometres using only water, a solvent and a laser.
It has also been used to process graphene to a high quality for commercial use.
VFD creator and professor of clean technology at Flinders University Professor Colin Raston said the production of GO from graphite ore with minimal waste was an important part of the collaborative project.
“This project aims to develop the manufacturing specifications for the commercial production of a graphene oxide super-capacitor with the ‘look and feel’ of a LIB but with superior performance across weight, charge rate, lifecycle and environmental footprint factors,” Professor Raston said.
The AU$3.45 million project is being supported by a $1.5 million Cooperative Research Centre Project grant through the Australian Government’s Advance Manufacturing Fund.
First Graphene will use the Flinders University technology to produce the highest-quality graphene at scale and to become a global supplier of graphene nanomaterials products.