Dr Chun-Xia Zhao’s team from The University of Queensland have developed a new one-step microfluidic self-assembly method for manufacturing multifunctional targeted liposomes with precisely controlled properties.

When helium gets cold, it starts to get really cool. At temperatures close to absolute zero, it becomes a liquid that never rests.

University of Queensland researchers have found a new way to measure inter-fibre forces, allowing for the creation of stronger and more durable materials.

Modern technology allows information to be transmitted in many forms, but most of them aren’t suited to hazardous environments. In parts of the resources industries any potential ignition source could cause catastrophic damage but data still needs to be collected and reported.

Development of new deposition and sublimation techniques to create device-quality graphene for large-scale manufacturing.

Researchers at the Australian Institute of Bioengineering and Nanotechnology engineer a new class of imaging agents that promise to allow much clearer definition and mapping of diseased tissue.

A team at the Australian Institute of Bioengineering and Nanotechnology have discovered a new physical phenomenon that could lead to a new generation of ultra-sensitive point-of-care diagnostic devices.

Using ANFF-Q’s Australian-first SiC epitaxial reactor, researchers from Griffith University have developed a substantially cheaper way to obtain high-quality patterned graphene at the wafer-level, enabling creation of extraordinarily sensitive and versatile chemical micro-sensors.

ANFF-Q enables Queensland SME to create new sustainable building materials for a world market by providing easy access to world-class R&D infrastructure.

Researchers at Griffith University have developed world-first silicon carbide nanowires for use in nanoscale sensors that are suitable for harsh environments.