World-first fabrication of graphene-based micro-devices using silicon carbide films on silicon wafers.

A team of researchers from The University of Queensland and Intel Corporation have combined light-based techniques with self-assembly to print nanoscale features approximately 5 000 times narrower than the width of a human hair.

Unprecedented discovery in bulk MgH₂ dehydriding will contribute significantly towards the development of large scale commercial hydrogen storage systems, and efficient and safe hydrogen filling stations for fuel cell vehicles in modern transport systems.

Collaborating with ANFF-Q, researchers from The Nihon Superior Centre for the Manufacture of Electronic Materials have developed a process to stabilise Cu₆Sn₅ and prevent failure of soldered interconnects in electronic devices.

Researchers at The University of Queensland have found a new way to immobilise gibbsite fine particles during alumina production, providing new insight into the Bayer process—a technology of high economic importance to the Australian resources industry.

Vaxxas’ proprietary Nanopatch™ technology aims to provide an optimized, differentiated needle-free vaccine delivery solution that safely and cost effectively amplifies vaccine efficacy.

Professor Michael Yu’s research team, with support from ANFF-Q, have developed a novel method for preparing nanoparticles to improve biomolecule loading capacity and cell delivery.