Developing a new layered material for future electronics
A new RMIT-led study stacks two different types of 2D materials together to create a hybrid material providing enhanced properties.
ARC Centre of Excellence in Future Low-Energy Electronics Technologies (or FLEET) is a collaboration of physicists, electrical engineers, chemists and material scientists from seven Australian universities developing ultra-low energy electronics aimed at reducing energy use in information technology (IT). The Centre was funded in the September 2016 ARC Linkage round.
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A new RMIT-led study stacks two different types of 2D materials together to create a hybrid material providing enhanced properties.
Nanomaterials
Mar 17, 2022
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270
A collaborative study led by the University of Wollongong confirms switching mechanism for a new, proposed generation of ultra-low energy topological electronics.
Nanophysics
Mar 9, 2022
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11
A rare spectroscopy technique performed at Swinburne University of Technology directly quantifies the energy required to bind two excitons together, providing for the first time a direct measurement of the biexciton binding ...
Condensed Matter
Mar 2, 2022
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157
"The long divided, must unite; long united, must divide. Thus it has ever been."
Nanomaterials
Feb 4, 2022
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76
Physicists at the University of Queensland have shed light upon how tiny whirlpools (vortices) get stuck to obstacles in superfluids.
General Physics
Dec 22, 2021
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17
Losing particles can lead to positive, robust effects.
General Physics
Dec 14, 2021
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53
Liquid-metal machines could wipe out maintenance issues for continuous flow reactors.
Biochemistry
Nov 15, 2021
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203
A University of Wollongong-led team across three FLEET nodes has combined two traditional semiconductor doping methods to achieve new efficiencies in the topological insulator bismuth-selenide (Bi2Se3).
Condensed Matter
Nov 12, 2021
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35
A RMIT-led, international collaboration published this week has observed large in-plane anisotropic magnetoresistance (AMR) in a quantum spin Hall insulator and the spin quantization axis of the edge states can be well-defined.
Nanophysics
Nov 3, 2021
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126
Stress enhances the properties of a promising material for future technologies.
General Physics
Oct 12, 2021
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24