![Product photo of Gentech Generator and vials](/sites/default/files/styles/thumbnail/public/hero-images/230315-gentech-generator-low-res-%286%292.jpg?itok=Atb3eZ0w)
ANSTO's Gentech® Generator
Supporting healthcare professionals in Australia with easy-to-access resources related to ANSTO’s Gentech® Generator.
Showing 221 - 240 of 1435 results
Supporting healthcare professionals in Australia with easy-to-access resources related to ANSTO’s Gentech® Generator.
The new facility will be built around a product line of ANSTO’s design – a new Technetium-99m generator – that will enable greater process automation than is possible with existing technology, leading to improvements in efficiency, quality and importantly the highest levels of production safety.
ANSTO uses nuclear research techniques to address many of the important issues of our time relating to the environment, human health and industry.
ANSTO has contributed to the internationally-distributed handbook on plutonium published by the American Nuclear Society.
Contribution to Handbook of Food Structure and Development showcases ANSTO expertise in food science.
Collaborators used X-ray imaging to understand the fine detail of how a damaging fungal pathogen reduces leaf function and grain yield of wheat crops.
Analysing the microstructure of paracetamol using synchrotron infrared optical technique provides insights.
ANSTO has been tracking and publishing data on fine particle pollution from key sites around Australia, and internationally, for more than 20 years.
A selection of research highlights, instrument news and technical developments for scientists.
The Macromolecular and Microfocus Crystallography beamlines at the Australian Synchrotron (MX1 and MX2) are general purpose crystallography instruments for determining chemical and biological structures.
The Platypus instrument can be used to study all-manner of surface-science and interface problems, particularly related to magnetic recording materials and for polymer coatings, biosensors and artificial biological membranes.
Kowari, a residual stress diffractometer, can be used for ‘strain scanning’ of large engineering components as large as 1000 kilograms.
In partnership with the Australian Museum as part of National Science Week explore the 2020 hackathon theme of Deep Blue: Innovation for the future of our oceans
In April 15, 1953, Australia entered the nuclear science arena, when the Atomic Energy Act came into effect. The Australian Atomic Energy Commission (AAEC) followed and in 1987 the AAEC evolved into the Australian Nuclear Science and Technology Organisation (ANSTO) as it’s known today.
Frequently asked questions about the ANSTO Security Process, travel funding, ANSTO Research Portal and ACNS Customer Portal.
Using the past to illuminate the future: Brothers collaborate on important science documentary for ABC TV
Online and interactive while in your home. Kids can zoom into these school holidays workshops and create movies, animations, arcade games, roller coasters and more. Limited spaces: book now.
Explore ANSTO's range of publications and reports available for the public.