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Xenon Trapping
Xenon (Xe) atoms are trapped in silicate nanocages in contact with a metal surface. The atoms can be trapped at moderate temperatures (> 300 K) and released by heating to elevated temperatures (> 750 K). This can benefit several applications, including Xe production, nuclear power, nuclear waste remediation, and nonpro liferation of nuclear weapons. More details can be found in...
Xenon (Xe) is a valuable and scarce noble gas used in various applications, including lighting, electronics, and anesthetics, among many others. It is also a volatile byproduct of the nuclear fission of uranium. A novel material architecture consisting of silicate nanocages in contact with a metal surface and an approach for trapping single Xe atoms in these cages is presented. The trapping is done...
Following the fundamental research conducted by J. B. Goodenough, the important role of electron localization induced by elemental substitution is studied. The size and electron negativity of host and substituting ions are two important factors in tuning material properties such as local structure and transition metal (TM) oxygen covalency. However, another factor, electron localization, which is...
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