Rearrangement of hydrogen bonds in dehydrated raffinose tetrahydrate: a time‐of‐flight neutron diffraction study

Structural changes of the raffinose crystal on dehydration from the pentahydrate to the tetrahydrate were investigated by single‐crystal time‐of‐flight neutron diffraction. It was revealed that during the dehydration, rearrangement occurs in the hydrogen bonds related to the lost water molecule, whi...

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Bibliographic Details
Published in:Acta crystallographica. Section C, Crystal structure communications Crystal structure communications, 2022-12, Vol.78 (12), p.743-748
Main Authors: Kawasaki, Takuro, Takahashi, Miwako, Kiyanagi, Ryoji, Ohhara, Takashi
Format: Article
Language:English
Subjects:
Bonding strength
Chemical bonds
Crystal structure
Crystals
Dehydration
Hydrogen
hydrogen bonding
Hydrogen bonds
Lattice parameters
Neutron diffraction
Raffinose
raffinose hydrate
time‐of‐flight
Water chemistry
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Summary:Structural changes of the raffinose crystal on dehydration from the pentahydrate to the tetrahydrate were investigated by single‐crystal time‐of‐flight neutron diffraction. It was revealed that during the dehydration, rearrangement occurs in the hydrogen bonds related to the lost water molecule, while the symmetry of the crystal structure is retained. The hydrogen‐bonding status of raffinose pentahydrate and tetrahydrate were discussed comprehensively according to Jeffrey's hydrogen‐bonding classification. It was shown that the water molecules are hydrogen bonded to the surrounding molecules by moderate O—H…O hydrogen bonds and weak C—H…O hydrogen bonds, and the number of these two types of hydrogen bonds determines the water molecules that are removed by dehydration. The lattice constant c showed a significant decrease on dehydration and further dehydration leads to loss of crystallinity of the raffinose crystals. The geometry of hydrogen bonds in raffinose pentahydrate and dehydrated tetrahydrate single crystals was studied by time‐of‐flight neutron diffraction. The rearrangement of water molecules and the decrease in lattice constant c during dehydration were demonstrated.
ISSN:2053-2296
0108-2701
2053-2296
1600-5759
DOI:10.1107/S2053229622010828