Oxygen migration at the heterostructure interface
NUS physicists have developed a methodology to control the electromigration of oxygen atoms in the buried interfaces of complex oxide materials for constructing high mobility oxide heterostructures.
NUS physicists have developed a methodology to control the electromigration of oxygen atoms in the buried interfaces of complex oxide materials for constructing high mobility oxide heterostructures.
General Physics
Jan 11, 2019
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138
ANSTO's unique landmark infrastructure has been used to study uranium, the keystone to the nuclear fuel cycle. The advanced instruments at the Australian Synchrotron and the Australian Centre for Neutron Scattering have ...
Materials Science
Aug 30, 2018
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109
Powering clean, efficient cars is just one way fuel cell technology could accelerate humanity into a sustainable energy future, but unfortunately, the technology has been a bit sluggish. Now, engineers may be able to essentially ...
Materials Science
Mar 14, 2018
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120
Preparing the perfect nanoscale sandwich from oxygen-based ingredients was no picnic.
Nanophysics
Mar 7, 2018
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14
At Karlsruhe Institute of Technology (KIT), scientists have studied ceria nanoparticles with the help of probe molecules and a complex ultrahigh vacuum-infrared measurement system and obtained new insights into their surface ...
Nanomaterials
Nov 16, 2017
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3
A non-volatile memory keeping its digital information without power and working at the same time at the ultrahigh speed of today's dynamic random access memory (DRAM) – that is the dream of materials scientists of TU Darmstadt.
Nanophysics
Jul 12, 2017
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5
ANSTO has collaborated on research investigating the possible synergistic effects of a new perovskite cathode material for a low-temperature solid-oxide fuel cell (LT-SOFC) that demonstrates outstanding and stable electrochemical ...
Materials Science
Jan 31, 2017
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623
An international team of researchers has demonstrated a new way to increase the robustness and energy storage capability of a particular class of "lithium-rich" cathode materials—by using a carbon dioxide-based gas mixture ...
Materials Science
Jul 6, 2016
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307
Using numerical modelling, researchers from Russia, the US, and China have discovered previously unknown features of rutile TiO2, which is a promising photocatalyst. The calculations were performed at an MIPT laboratory on ...
Materials Science
Jun 21, 2016
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27
Researchers at MIT have developed a practical and physically-based way of treating the surface of materials called perovskite oxides, to make them more durable and improve their performance. These materials are promising ...
Materials Science
Jun 14, 2016
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623