User access at the National Deuteration Facility
The National Deuteration Facility offers access to deuterated molecules prepared by both in vivo biodeuteration and chemical deuteration techniques.
Showing 21 - 40 of 740 results
Multiple techniques elucidate hardness with radiation damage
3D models of multilayered structures on engineering scale from nanoscale damage profiles.
Advanced nuclear waste forms
Research explores how the magnetic moments of atoms in materials are arranged and interact
The unique magnetic properties and nontrivial quantum effects were observed and measured in an advanced material with potential application for quantum computing.
Services
ANSTO waste management services meet regulatory requirements and international best practice standards.
Investigating a prospective light-weight fire retardant material with superior properties
Scientists from UNSW and ANSTO have characterised the structure of two-dimensional transition metal carbides, carbonites, and nitrides (MXenes) materials, that could be used as a lightweight fire-retardant filler and in energy storage devices.
Glass is a lens to cool nuclear science during National Science Week
A closer look at the scientific power of nuclear and accelerator techniques
In Part 2 of our series exploring the world of nuclear science and technology at ANSTO, we share more detailed information about the nuclear scientist’s toolkit.
ANSTO researchers support study into conversion of waste heat into potential new energy source
Nuclear techniques will be crucial tools in the development of advanced materials that sustainably convert waste heat into useful forms of energy to benefit Australia.
Combining irradiation and lithography to engineer advanced conducting materials
ANSTO Library
ANSTO Publications Online is a digital repository for publications authored by ANSTO staff and collaborators since 1956.
Nuclear Materials Research and Technology
ANSTO addresses key scientific questions in the nuclear fuel cycle for both the current generation of nuclear reactors and future systems.
Radiation biology
The measurement and manipulation of radiation and radioactive materials within biological systems. Capabilities include access to a range of radioisotopes, gamma/X-ray sources and a selection of X-ray beams, ion beams and neutron beams for irradiation.
Improving the performance of cold sprayed additive manufactured Titanium
Nuclear tech helps power Perseverance Rover on Mars
A large international research team led by Academia Sinica in Taiwan investigated how heat is transferred in an advanced thermoelectric material made with germanium (Ge) and tellurium (Te) and doped with antimony (Sb). These devices are used to power space probes such as the Mars Curiosity Rover.
Promising new cathode material for low-temperature solid-oxide fuel cells
Investigating advanced materials for large scale energy storage
New cathode material provides a direction for the design of high performing sodium ion batteries for large scale energy storage
Building new knowledge of advanced materials in extreme environments
An international research collaboration between the University of New South Wales (UNSW), the Shanghai Institute of Applied Physics (SINAP) and ANSTO has provided insights into the performance of advanced material for use in the high-temperature environment of molten salt systems.