Crystal water as the molecular glue for obtaining different co-crystal ratios: the case of gallic acid tris-caffeine hexahydrate

Crystal water as the molecular glue for obtaining different co-crystal ratios: the case of gallic acid tris-caffeine hexahydrate

The crystal structure of the hexahydrate co-crystal of gallic acid and caffeine, C7H6O5·3C8H10N4O2·6H2O or GAL3CAF·6H2O, is a remarkable example of the importance of hydrate water acting as structural glue to facilitate the crystallization of two components of different stoichiometries and thus to c...

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Bibliographic Details
Main Authors: L. Vella-Zarb, U. Baisch
Format: Article
Language:English
Published: International Union of Crystallography 2018-04-01
Series:Acta Crystallographica Section E: Crystallographic Communications
Subjects:
crystal structure
organic co-crystal
hydrate
gallic acid
caffeine
Online Access:http://scripts.iucr.org/cgi-bin/paper?S2056989018004528
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spelling doaj-b66c18cc03af425dbf2b0d5a1d3333282020-11-24T23:27:04ZengInternational Union of CrystallographyActa Crystallographica Section E: Crystallographic Communications2056-98902018-04-0174455956210.1107/S2056989018004528lh5871Crystal water as the molecular glue for obtaining different co-crystal ratios: the case of gallic acid tris-caffeine hexahydrateL. Vella-Zarb0U. Baisch1University of Malta, Msida, MSD 2080, MaltaUniversity of Malta, Msida, MSD 2080, MaltaThe crystal structure of the hexahydrate co-crystal of gallic acid and caffeine, C7H6O5·3C8H10N4O2·6H2O or GAL3CAF·6H2O, is a remarkable example of the importance of hydrate water acting as structural glue to facilitate the crystallization of two components of different stoichiometries and thus to compensate an imbalance of hydrogen-bond donors and acceptors. The water molecules provide the additional hydrogen bonds required to form a crystalline solid. Whereas the majority of hydrogen bonds forming the intermolecular network between gallic acid and caffeine are formed by crystal water, only one direct classical hydrogen bond between two molecules is formed between the carboxylic oxygen of gallic acid and the carbonyl oxygen of caffeine with d(D...A) = 2.672 (2) Å. All other hydrogen bonds either involve crystal water or utilize protonated carbon atoms as donors.http://scripts.iucr.org/cgi-bin/paper?S2056989018004528crystal structureorganic co-crystalhydrategallic acidcaffeine
collection DOAJ
language English
format Article
sources DOAJ
author L. Vella-Zarb
U. Baisch
spellingShingle L. Vella-Zarb
U. Baisch
Crystal water as the molecular glue for obtaining different co-crystal ratios: the case of gallic acid tris-caffeine hexahydrate
Acta Crystallographica Section E: Crystallographic Communications
crystal structure
organic co-crystal
hydrate
gallic acid
caffeine
author_facet L. Vella-Zarb
U. Baisch
author_sort L. Vella-Zarb
title Crystal water as the molecular glue for obtaining different co-crystal ratios: the case of gallic acid tris-caffeine hexahydrate
title_short Crystal water as the molecular glue for obtaining different co-crystal ratios: the case of gallic acid tris-caffeine hexahydrate
title_full Crystal water as the molecular glue for obtaining different co-crystal ratios: the case of gallic acid tris-caffeine hexahydrate
title_fullStr Crystal water as the molecular glue for obtaining different co-crystal ratios: the case of gallic acid tris-caffeine hexahydrate
title_full_unstemmed Crystal water as the molecular glue for obtaining different co-crystal ratios: the case of gallic acid tris-caffeine hexahydrate
title_sort crystal water as the molecular glue for obtaining different co-crystal ratios: the case of gallic acid tris-caffeine hexahydrate
publisher International Union of Crystallography
series Acta Crystallographica Section E: Crystallographic Communications
issn 2056-9890
publishDate 2018-04-01
description The crystal structure of the hexahydrate co-crystal of gallic acid and caffeine, C7H6O5·3C8H10N4O2·6H2O or GAL3CAF·6H2O, is a remarkable example of the importance of hydrate water acting as structural glue to facilitate the crystallization of two components of different stoichiometries and thus to compensate an imbalance of hydrogen-bond donors and acceptors. The water molecules provide the additional hydrogen bonds required to form a crystalline solid. Whereas the majority of hydrogen bonds forming the intermolecular network between gallic acid and caffeine are formed by crystal water, only one direct classical hydrogen bond between two molecules is formed between the carboxylic oxygen of gallic acid and the carbonyl oxygen of caffeine with d(D...A) = 2.672 (2) Å. All other hydrogen bonds either involve crystal water or utilize protonated carbon atoms as donors.
topic crystal structure
organic co-crystal
hydrate
gallic acid
caffeine
url http://scripts.iucr.org/cgi-bin/paper?S2056989018004528
work_keys_str_mv AT lvellazarb crystalwaterasthemolecularglueforobtainingdifferentcocrystalratiosthecaseofgallicacidtriscaffeinehexahydrate
AT ubaisch crystalwaterasthemolecularglueforobtainingdifferentcocrystalratiosthecaseofgallicacidtriscaffeinehexahydrate
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