129Xe NMR analysis of pore structures and adsorption phenomena in rare-earth element phosphates

“…Furthermore, the 129 Xe NMR chemical shift is highly sensitive to the atom’s local physical and chemical environment. For example, 129 Xe NMR has been shown to be an excellent probe for various materials, which include both pure solvents , as well as porous materials − such as solid POCs, , supramolecular cages, − biosensors, − metal–organic frameworks, − molecular wheels, zeolites, ionic liquids, cements and shales, geopolymers, rare-earth element phosphates, clathrates, , and fullerenes. ,, Furthermore, it is possible to extract detailed information about the local environment of the 129 Xe atom by combining experimental studies with quantum-chemical calculations and molecular simulations. ,,,,,,,,− …”

Gas Uptake and Thermodynamics in Porous Liquids Elucidated by ¹²⁹Xe NMR

“…Furthermore, the 129 Xe NMR chemical shift is highly sensitive to the atom’s local physical and chemical environment. For example, 129 Xe NMR has been shown to be an excellent probe for various materials, which include both pure solvents , as well as porous materials − such as solid POCs, , supramolecular cages, − biosensors, − metal–organic frameworks, − molecular wheels, zeolites, ionic liquids, cements and shales, geopolymers, rare-earth element phosphates, clathrates, , and fullerenes. ,, Furthermore, it is possible to extract detailed information about the local environment of the 129 Xe atom by combining experimental studies with quantum-chemical calculations and molecular simulations. ,,,,,,,,− …”

Gas Uptake and Thermodynamics in Porous Liquids Elucidated by ¹²⁹Xe NMR

Facilitated luminescence via pH regulation of GdF3:5%Eu3+ and NaGdF4:5%Eu3+ morphologies