From molecular crystals to salt co-crystals of barbituric acid via the carbonate ion and an improvement of the solid state properties

Co-crystals formed by neutral barbituric acid (HBA) molecules and alkaline barbiturate salts have been prepared by solvent-free mechanochemical treatment of solid HBA and alkaline carbonates or bicarbonates. During the reaction the carbonate salts release CO sub(2) and H sub(2)O, affording the corre...

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Veröffentlicht in:	CrystEngComm 2013-01, Vol.15 (37), p.7598-7605
Hauptverfasser:	Chierotti, Michele R., Gaglioti, Katia, Gobetto, Roberto, Braga, Dario, Grepioni, Fabrizia, Maini, Lucia
Format:	Artikel
Sprache:	eng
Schlagworte:	Bicarbonates Carbon dioxide Carbonates Cobalt Crystallization Crystals Differential scanning calorimetry Spectroscopy
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creator	Chierotti, Michele R. Gaglioti, Katia Gobetto, Roberto Braga, Dario Grepioni, Fabrizia Maini, Lucia
description	Co-crystals formed by neutral barbituric acid (HBA) molecules and alkaline barbiturate salts have been prepared by solvent-free mechanochemical treatment of solid HBA and alkaline carbonates or bicarbonates. During the reaction the carbonate salts release CO sub(2) and H sub(2)O, affording the corresponding barbiturate salts which then co-crystallize with the neutral molecule. These "salt co-crystals" have the general formula M super(x+)(BA super(-)) sub(x) .HBA.nH sub(2)O with (M = Na and K). The compounds can be obtained in a single step, by directly grinding HBA with M sub(2)CO sub(3) (4 : 1 ratio) or MHCO sub(3) (2 : 1 ratio), or, alternatively, in two steps: the preparation of the BA salt followed by a further grinding process or crystallization of the resulting salts with a stoichiometric amount of neutral HBA. All compounds have been characterized by means of single-crystal and powder XRD, solid-state NMR ( super(1)H MAS, super(13)C and super(15)N CPMAS), vibrational spectroscopies and thermal methods (DSC and TGA). A series of BA super(-) salts (either hydrated or anhydrous) of formula M super(x+)(BA super(-)) sub(x).nH sub(2)O (M = Na, K, Mg and Ca) have also been prepared and reported for comparison.
doi_str_mv	10.1039/c3ce40938d
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During the reaction the carbonate salts release CO sub(2) and H sub(2)O, affording the corresponding barbiturate salts which then co-crystallize with the neutral molecule. These "salt co-crystals" have the general formula M super(x+)(BA super(-)) sub(x) .HBA.nH sub(2)O with (M = Na and K). The compounds can be obtained in a single step, by directly grinding HBA with M sub(2)CO sub(3) (4 : 1 ratio) or MHCO sub(3) (2 : 1 ratio), or, alternatively, in two steps: the preparation of the BA salt followed by a further grinding process or crystallization of the resulting salts with a stoichiometric amount of neutral HBA. All compounds have been characterized by means of single-crystal and powder XRD, solid-state NMR ( super(1)H MAS, super(13)C and super(15)N CPMAS), vibrational spectroscopies and thermal methods (DSC and TGA). 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During the reaction the carbonate salts release CO sub(2) and H sub(2)O, affording the corresponding barbiturate salts which then co-crystallize with the neutral molecule. These "salt co-crystals" have the general formula M super(x+)(BA super(-)) sub(x) .HBA.nH sub(2)O with (M = Na and K). The compounds can be obtained in a single step, by directly grinding HBA with M sub(2)CO sub(3) (4 : 1 ratio) or MHCO sub(3) (2 : 1 ratio), or, alternatively, in two steps: the preparation of the BA salt followed by a further grinding process or crystallization of the resulting salts with a stoichiometric amount of neutral HBA. All compounds have been characterized by means of single-crystal and powder XRD, solid-state NMR ( super(1)H MAS, super(13)C and super(15)N CPMAS), vibrational spectroscopies and thermal methods (DSC and TGA). A series of BA super(-) salts (either hydrated or anhydrous) of formula M super(x+)(BA super(-)) sub(x).nH sub(2)O (M = Na, K, Mg and Ca) have also been prepared and reported for comparison.</abstract><doi>10.1039/c3ce40938d</doi><tpages>8</tpages></addata></record>
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source	Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection
subjects	Bicarbonates Carbon dioxide Carbonates Cobalt Crystallization Crystals Differential scanning calorimetry Spectroscopy
title	From molecular crystals to salt co-crystals of barbituric acid via the carbonate ion and an improvement of the solid state properties
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