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Efficient electro-catalysis of hydrogen from seawater represents a low-cost, abundant source of clean energy.

The User Advisory Committee (UAC) are pleased to present this year's invited speakers.

ANSTO User Meeting 2021 - Speakers

Our research group carries out fundamental research uniquely applied to industrial problems in the areas of uranium, rare earth and lithium processing.

Winners of the Big Ideas Competition 2021

ANSTO is dedicated to identifying opportunities for the application of knowledge and technology developed by the organisation for a wide range of industry applications.

ANSTO plays a leading role in measuring and characterising fine particles from a range of locations around Australia and internationally.

There has been an increasing pressure on construction industrial sector to utilise innovative materials that not only meet the requirements of ambitious architectural designs, but also reduce CO2 emissions.

You may be confident about the major crystallographic phases of your ore body – but what about those minor phases that can affect processing or cause long-term problems with remediation?

Discover a plethora of Teacher Professional Development and Education Resources designed for both Australian and International teachers.

Voucher scheme accelerating medical research

Billions of tonnes of iron ore tailings are generated each year from the mining industry. Converting these toxic tailings into soil-like materials which can develop and sustain plant and microbial communities is critical for mine site remediation and improved environmental outcomes.

The growth and incorporation of graphene into semiconductor device architectures has been limited by challenges related to the quality, reproducibility, and high process temperatures required to grow it on suitable substrates.

Unique landmark instrumentation and expertise are a hallmark of ANSTO’s sovereign capability, unavailable anywhere else in Australia.  Our ability to identify the source of hazardous particulates in air, the age of water in aquifers and the detailed chemistry of toxic elements in complex soil and biota specimens are just some examples of ANSTO capability.

The Think Science! competition encourages students in Years 3-10 to learn science inquiry skills in a fun and accessible way! Entry is FREE and there are generous prizes for winning schools. Any topic can be chosen, and special materials are not required.

The THz/Far-IR Beamline couples the high brightness and collimation of a bend-magnet synchrotron radiation to a Bruker IFS125HR spectrometer providing high-resolution spectra (0.00096 cm-1) with signal to noise ratio superior to that of thermal sources up to 1350 cm-1 for gas-phase applications; the beamline also delivers signal to noise ratio superior to that of thermal sources up to 350 cm-1 for condensed phase samples.

The BRIGHT Project will expand the beamline infrastructure of the Australian Synchrotron to increase both its capacity and capabilities.

The Infrared Microspectroscopy beamline combines the high brilliance and collimation of the synchrotron beam through a Bruker V80v Fourier Transform Infrared (FTIR) spectrometer and into a Hyperion 3000 IR microscope to reach high signal-to-noise ratios at diffraction limited spatial resolutions between 3-8 μm.