Search results for "Sodalite"

showing 6 items of 6 documents

Exploratory Synthesis of Low-Silica Nanozeolites through Geopolymer Chemistry

2019

Nanozeolites are of great interest with the premise of their efficiency in traditional applications such as catalysis and separation, as well as their emerging applications including chemical sensors, medicine, and food industry. We report a new geopolymerization route for the synthesis of nanozeolites with different crystal structures by exploring the Na–Al–Si–H2O quaternary phase space under a mild hydrothermal condition. Nanostructured faujasite (FAU), cancrinite (CAN), and sodalite (SOD) zeolites with a crystallite size smaller than 40 nm were successfully produced from our exploration, as well as a submicron-sized Linde-Type A (LTA) zeolite. The transmission electron microscopy and nit…

010405 organic chemistryGeneral ChemistryFaujasiteengineering.material010402 general chemistryCondensed Matter Physics01 natural sciences0104 chemical sciencesCancriniteCatalysisGeopolymerchemistry.chemical_compoundChemical engineeringchemistryengineeringSodaliteGeneral Materials ScienceCrystalliteMesoporous materialZeoliteCrystal Growth & Design
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Quantum chemistry calculations on the effect of electron confinement upon the frontier molecular orbitals of ethylene and benzene in sodalite. Implic…

1997

Abstract Quantum chemistry calculations using HF / STO-3G, CEP-41G, and 3-21G basis sets have been carried out in order to study the effect of the electron confinement of ethylene and benzene in the microporous environment existing in a sodalite cage. The electron confinement produces an increase of 1.06 and 1.31 eV at the 3-21G level in the energy of the HOMO of ethylene and benzene, respectively, when placed in the centre of the cavity with respect to the HOMO energy in the gas phase. There is an increase in the energy of the HOMO when the molecules approach the walls of the zeolite.

EthyleneChemistryGeneral Physics and AstronomyMicroporous materialPhotochemistryQuantum chemistrychemistry.chemical_compoundChemical physicsSodaliteMoleculeMolecular orbitalReactivity (chemistry)Physical and Theoretical ChemistryBenzene
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An average structure model of the intermediate phase between sodalite and cancrinite

2018

Abstract Powder samples of the intermediate phase between sodalite and cancrinite (INT) have been synthesized hydrothermally. The formation of the INT phase was proved by both PXRD and TGA analysis and its stoichiometric composition was found to be |Na6.95(1)(CO3)0.48(2) (H2O)6.18(6)|[AlSiO4]6. The comparison of the intensity ratios of PXRD data with a SCXRD measurement indicates the formation of a comparable phase with the typical strong stacking disorder. The hexagonal lattice parameters with a=1266.3(2) pm and c=1586(1) pm and the unit cell setting were determined by Pawley fits. The average lattice and the stacking disorder along c axis could be confirmed by the reconstruction of three-…

Materials science02 engineering and technology010502 geochemistry & geophysics021001 nanoscience & nanotechnologyCondensed Matter Physics01 natural sciencesCancriniteInorganic ChemistryCrystallographychemistry.chemical_compoundchemistryPhase (matter)SodaliteGeneral Materials ScienceStructured model0210 nano-technology0105 earth and related environmental sciencesZeitschrift für Kristallographie - Crystalline Materials
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Hackmanite—The Natural Glow-in-the-Dark Material

2020

“Glow-in-the-dark” materials are known to practically everyone who has ever traveled by airplane or cruise ship, since they are commonly used for self-lit emergency exit signs. The green afterglow, persistent luminescence (PeL), is obtained from divalent europium doped to a synthetic strontium aluminate, but there are also some natural minerals capable of afterglow. One such mineral is hackmanite, the afterglow of which has never been thoroughly investigated, even if its synthetic versions can compete with some of the best commercially available synthetic PeL materials. Here we combine experimental and computational data to show that the white PeL of natural hackmanite is generated and cont…

Materials scienceGeneral Chemical Engineeringchemistry.chemical_element02 engineering and technologyNatural mineral010402 general chemistry01 natural sciencesNatural (archaeology)Synthetic materialsSODALITEchemistry.chemical_compoundPersistent luminescenceMaterials ChemistryTUGTUPITESPECTRACOLORluminesenssiIRONStrontium aluminate[CHIM.MATE]Chemical Sciences/Material chemistryOPTICAL-PROPERTIESGeneral ChemistryRESONANCE021001 nanoscience & nanotechnology0104 chemical sciencesAfterglow[CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistryCENTERSPhysics and AstronomychemistryChemical physicsLUMINESCENCE0210 nano-technologyEuropiumLuminescenceChemistry of Materials
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Template-free synthesis and structural evolution of discrete hydroxycancrinite zeolite nanorods from high-concentration hydrogels.

2017

We report the synthesis and characterization of hydroxycancrinite zeolite nanorods by a simple hydrothermal treatment of aluminosilicate hydrogels at high concentrations of precursors without the use of structure-directing agents. Transmission electron microscopy (TEM) analysis reveals that cancrinite nanorods, with lengths of 200-800 nm and diameters of 30-50 nm, exhibit a hexagonal morphology and are elongated along the crystallographic c direction. The powder X-ray diffraction (PXRD), Fourier transform infrared (FT-IR) and TEM studies revealed sequential events of hydrogel formation, the formation of aggregated sodalite nuclei, the conversion of sodalite to cancrinite and finally the gro…

Materials scienceNanotechnology02 engineering and technology010402 general chemistry021001 nanoscience & nanotechnology01 natural sciences0104 chemical sciencesCancrinitechemistry.chemical_compoundchemistryChemical engineeringNanocrystalSelf-healing hydrogelsSodaliteZeta potentialGeneral Materials ScienceNanorod0210 nano-technologyZeolitePowder diffractionNanoscale
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Multivariate sodalite Zeolitic Imidazolate frameworks: a direct solvent-free synthesis

2021

Different mixed-ligand Zeolitic Imidazolate Frameworks (ZIFs) with sodalite topology, i.e. isoreticular to ZIF-8, unachievable by conventional synthetic routes, have been prepared using a solvent-free methodology. In particular, the versatility of this method is demonstrated with three different metal centres (Zn, Co and Fe) and binary combinations of three different ligands (2-methylimidazole, 2-ethylimidazole and 2-methylbenzimidazole). One combination of ligands, 2-ethylimidazole and 2-methylbenzimidazole, results in the formation of SOD frameworks for the three metal centres despite this topology not being obtained for the individual ligands. Theoretical calculations confirm that this t…

Solvent freeMaterials scienceLigandGeneral ChemistryMixed ligandMetalCrystallographychemistry.chemical_compoundCompostos orgànics Síntesichemistryvisual_artSodalitevisual_art.visual_art_mediumMaterialsTopology (chemistry)Zeolitic imidazolate framework
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