For the first time, scientists have trapped a noble gas in a two-dimensional porous structure at room temperature. This achievement will enable detailed studies of individual gas atoms in confinement—research that could inform the design of new materials for gas separation and nuclear waste remediation.
Planet Earth/print version - Wikibooks, open books for an open world
Studying Argon Gas Trapped in Two-Dimensional Array of Tiny Cages - Research & Development World
2D‐(Alumino)Silicate‐Noble Clathrates: Ionization‐Facilitated Formation of 2D (Alumino)Silicate–Noble Gas Clathrate Compounds (Adv. Funct. Mater. 20/2019)
Xenon Gas Separation and Storage Using Metal-Organic Frameworks - ScienceDirect
Probing the binding and activation of small molecules by gas-phase transition metal clusters via IR spectroscopy - Chemical Society Reviews (RSC Publishing) DOI:10.1039/D2CS00104G
Immobilization of single argon atoms in nano-cages of two-dimensional zeolite model systems
Discriminative Analysis of NOx Gases by Two-Dimensional Violet Phosphorus Field-Effect Transistors
Ablation of Esoteric Organs
2017's Top-10 Discoveries and Scientific Achievements at Brookhaven National Laboratory
Nanocages Trap and Separate Elusive Noble Gases
Converting Quarterly - 2012 Quarter 2 by petersonpublications - Issuu
Xenon Trapping in Metal‐Supported Silica Nanocages - Xu - 2021 - Small - Wiley Online Library