Search results for "Strontium"

showing 10 items of 195 documents

CCDC 2132442: Experimental Crystal Structure Determination

2022

Related Article: Cristina Negro, Paula Escamilla, Rosaria Bruno, Jesus Ferrando-Soria, Donatella Armentano, Emilio Pardo|2022|Chem.-Eur.J.|28||doi:10.1002/chem.202200034

Space GroupCrystallographyCrystal Systemcatena-[tris(mu-[1-carboxylato-3-(methylsulfanyl)propyl]({[1-carboxylato-3-(methylsulfanyl)propyl]carboximidato}carbonyl)amido)-bis(mu-hydroxo)-(mu-aqua)-hexa-copper(ii)-strontium(ii) hexadecahydrate]Crystal StructureCell ParametersExperimental 3D Coordinates

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CCDC 634503: Experimental Crystal Structure Determination

2008

Related Article: M.D.Brown, M.F.Davis, J.M.Dyke, F.Ferrante, W.Levason, J.S.Ogden, M.Webster|2008|Chem.-Eur.J.|14|2615|doi:10.1002/chem.200701502

Space GroupCrystallographycatena-((mu~2~-Azido)-(nitrato-OO')-(1471013-pentaoxacyclopentadecane)-strontium(ii))Crystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates

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CCDC 1995183: Experimental Crystal Structure Determination

2021

Related Article: Estefanía Tiburcio, Rossella Greco, Marta Mon, Jordi Ballesteros-Soberanas, Jesús Ferrando-Soria, Miguel López-Haro, Juan Carlos Hernández-Garrido, Judit Oliver-Meseguer, Carlo Marini, Mercedes Boronat, Donatella Armentano, Antonio Leyva-Pérez, Emilio Pardo|2021|J.Am.Chem.Soc.|143|2581|doi:10.1021/jacs.0c12367

Space GroupCrystallographycatena-(tris(mu-(SS)-2-[(2-{[1-carboxylato-2-(methylsulfanyl)ethyl]amino}-1-oxy-2-oxoethylidene)amino]-3-(methylsulfanyl)propanoato)-bis(mu-hydroxo)-(mu-methanol)-hexa-copper-strontium palladium tris(ammonia) dichloride hydrate)Crystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates

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CCDC 1826457: Experimental Crystal Structure Determination

2018

Related Article: Marta Mon, Rosaria Bruno, Rosangela Elliani, Antonio Tagarelli, Xiaoni Qu, Sanping Chen, Jesús Ferrando-Soria, Donatella Armentano, Emilio Pardo|2018|Inorg.Chem.|57|13895|doi:10.1021/acs.inorgchem.8b02409

Space GroupCrystallographycatena-[(mu-aqua)-tris(mu-22'-[(12-dioxoethane-12-diyl)bis(azanidediyl)]bis(3-hydroxybutanoato))-bis(mu-hydroxo)-triaqua-hexa-copper-strontium trichloro-dysprosium acetonitrile solvate hydrate]Crystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates

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CCDC 2132444: Experimental Crystal Structure Determination

2022

Related Article: Cristina Negro, Paula Escamilla, Rosaria Bruno, Jesus Ferrando-Soria, Donatella Armentano, Emilio Pardo|2022|Chem.-Eur.J.|28||doi:10.1002/chem.202200034

Space GroupCrystallographycatena-[4-{[4-(diethylamino)phenyl](phenyl)methylidene}-NN-diethylcyclohexa-25-dien-1-iminium hydrogen sulfate tris(mu-[1-carboxylato-3-(methylsulfanyl)propyl]({[1-carboxylato-3-(methylsulfanyl)propyl]carboximidato}carbonyl)amido)-bis(mu-hydroxo)-(mu-aqua)-hexa-copper(ii)-strontium(ii) pentahydrate]Crystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates

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CCDC 2132446: Experimental Crystal Structure Determination

2022

Related Article: Cristina Negro, Paula Escamilla, Rosaria Bruno, Jesus Ferrando-Soria, Donatella Armentano, Emilio Pardo|2022|Chem.-Eur.J.|28||doi:10.1002/chem.202200034

Space GroupCrystallographycatena-[6-(dimethylamino)-NN-dimethyl-3H-xanthen-3-iminium chloride tris(mu-[1-carboxylato-3-(methylsulfanyl)propyl]({[1-carboxylato-3-(methylsulfanyl)propyl]carboximidato}carbonyl)amido)-bis(mu-hydroxo)-(mu-aqua)-hexa-copper(ii)-strontium(ii) hexahydrate]Crystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates

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CCDC 1857501: Experimental Crystal Structure Determination

2018

Related Article: Francisco Ramón Fortea-Pérez, Jorge Pasán, Alejandro Pascual-Alvarez, Catalina Ruiz-Pérez, Miguel Julve, Francesc Lloret|2019|Inorg.Chim.Acta|486|150|doi:10.1016/j.ica.2018.09.080

Space GroupCrystallographycatena-[tetrakis(mu-oxalato)-aqua-bis(2-(1H-imidazol-2-yl)pyridine)-di-chromium(iii)-strontium(ii) methanol solvate hydrate]Crystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates

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Crystallization of SrCO3 on a self-assembled monolayer substrate: an in-situ synchrotron X-ray study

2001

Self-assembled monolayers (SAMs) of alkanethiols on gold surfaces show great promise in controlling the nucleation and growth of inorganic minerals from solution. In doing so, they mimic the role of some biogenic macromolecules in natural biomineralisation processes. Crystallization on SAM surfaces is usually monitored ex-situ; by allowing the process to commence and to evolve for some time, removing the substrate from the mother solution, and then examining it using microscopy, diffraction etc. We present here for the first time, the use of high energy monochromatic synchrotron X-radiation in conjunction with a two dimensional detector to monitor in situ, in a time resolved fashion, the gr…

Strontium carbonateNucleationSynchrotron radiationSelf-assembled monolayerGeneral ChemistrySubstrate (electronics)Synchrotronlaw.inventionchemistry.chemical_compoundCrystallographychemistryChemical engineeringlawMonolayerMaterials ChemistryCrystallizationJournal of Materials Chemistry

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Cobalt in strontium titanate based perovskites: preparation, characterization and role in the photocatalytic propene partial oxidation

2016

Strontium titanate perovskite (SrTiO3) and analogous materials in which Y partially substitutes Sr have been prepared as basis to integrate Co in the structure. The Co inserrtion has been performed by wet impregnation or coprecipitation methods. The obtained powders have been physico-chemically characterized and tested as photocatalysts in the propene partial oxidation by using a solar simulating reactor. Correlation between photocatalytic performance and physicochemical characteristics of the different catalysts allows to assess a key role of local nanostructuring of CoOx sites on the selectivity and distribution of products.

Strontium titanate propene partial oxidation photocatalysisSettore CHIM/07 - Fondamenti Chimici Delle Tecnologie

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Mollusc and brachiopod skeletal hard parts: Intricate archives of their marine environment

2015

The biogenic carbonate hard parts of fossil bivalves, cephalopods and brachiopods are among the most widely exploited marine archives of Phanerozoic environmental and climate dynamics research. The advent of novel analytical tools has led many workers to explore non-traditional geochemical and petrographic proxies, and work performed in neighbouring disciplines sheds light on the complex biomineralization strategies applied by these organisms. These considerations form a strong motivation to review the potential and problems related to the compilation and interpretation of proxy data from bivalve, cephalopod and brachiopod hard parts from the viewpoint of the sedimentologist and palaeoceano…

Strontium010504 meteorology & atmospheric sciencesPeriostracumStratigraphyEarth sciencechemistry.chemical_elementGeology010502 geochemistry & geophysics01 natural sciencesDiagenesisPetrographychemistry.chemical_compoundPaleontologyCalcium carbonatechemistryCarbonateSeawaterGeology0105 earth and related environmental sciencesBiomineralizationSedimentology

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