Research Highlights

Researchers from the ARC Centre of Excellence for Nanoscale BioPhotonics (CNBP) are using Raijin to design ultrasensitive biosensors for use in research and medical diagnosis. Led by Professor Andrew

Professor Nathan Bindoff and his team at the University of Tasmania are using Raijin to investigate how the Southern ocean drives the Earth's climate systems. "The Earth's poles are actually warmer

NCI's supercomputer-grade NeCTAR cloud node is helping researchers design more efficient solar cells. PhD candidate Bjӧrn Sturmberg from the University of Sydney has set up a custom environment on the

Among the 10 PB of research data collections hosted by NCI is the fascinating Geoscience Australia Australian Marine Video and Imagery Collection. This collection comprises 7 TB of video footage and

Dr David Poger from the University of Queensland has been using Raijin to understand bacterial membranes. "Using Raijin I simulate a simplified model of the lipids that form bacterial membranes,"

Researchers from University of Technology Sydney and Australian Science and Technology Organisation (ANSTO) are using Raijin to predict the existence of new high temperature, strong and ductile alloys

Researchers have used Raijin to find new ways to understand how organic surfaces get dirty. A combination of organic synthesis, scanning tunneling microscopy (STM) imaging, density functional theory

Researchers from Adelaide University have used Raijin to work out how to control the transport of molecules across membranes using a 'light switch'. These artificial smart membranes harbor

Antonio Tricoli and Noushin Nasri test their mobile sensor. Photo by Stuart Hay/ANU. Smart phones are getting smarter by the minute. They already help us plan transport routes, check the weather and

Researchers are using supercomputing to stop fungal pathogens in their tracks and help secure our food crops. Alison Testa from Curtin University has developed a sophisticated, self-training software