X-ray technique used in research on early life forms
Singapore researchers publish findings of link between proteins of archaea and eukaryotes despite being separated by more than 2 billion years of evolution.
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Singapore researchers publish findings of link between proteins of archaea and eukaryotes despite being separated by more than 2 billion years of evolution.
ANSTO’s user office in Melbourne offers access to the Australian Synchrotron, a world-class research facility with over 4,000 user visits per year. ANSTO seeks collaboration and partnerships with research organisations, scientific users and commercial users.
ANSTO has warmly welcomed the official launch of the Monash Precinct Network by Victorian Member for Ashwood, Matt Fregon MP at a special event at the Australian Synchrotron.
Restoring soil carbon can bring benefits for agricultural productivity and climate change mitigation.
An international research team has discovered how a bacterial toxin, known as Ssp, is capable of entering and killing a wide range of living cells, including human cells using the Australian Synchrotron.
Australia and Sri Lanka develop action plan to fight Chronic Kidney Disease killer
Timetable and Teams links
The newly built Medicines Manufacturing Innovation Centre (MMIC), co-located at the Australian Synchrotron at Clayton, was officially opened on Wednesday by the Victorian Deputy Premier and Minister for Medical Research the Hon Ben Carroll.
Combined imaging approach characterises plaques associated with disease.
A cross-disciplinary team has used laboratory-based and synchrotron-based infrared spectroscopy imaging techniques to monitor the waxy surface of living plant leaves in real-time to gain insights into plant physiology in response to disease, biological changes or environmental stress.
Winners of the Big Ideas Competition 2021
Read about an ANSTO scientist and their work to prepare for a school project or interview.
The User Advisory Committee (UAC) are pleased to present this year's invited speakers.
A new study by researchers from Curtin University using the infrared (IR) and X-ray fluorescence microscopy (XFM) beamlines at the Australian Synchrotron has provided a better understanding of the chemical and elemental composition of latent fingermarks.