Structural distortion of the α, β, and γ polymorphs of glycine on cooling
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E. V. Boldyreva
Abstract
The effect of cooling down to 150 K on the structures of α- (s.g. P21/n), β- (s.g. P21), and γ- (s.g. P31) polymorphs of glycine was studied by X-ray single-crystal diffraction. No polymorphic transformations were detected. Relative volume changes and the anisotropy of structural distortion of the three polymorphs of glycine were compared. Maximum contraction of structures was measured in the b-direction for the α- and β-polymorphs, and in the a-direction for the γ-polymorph. Minimum contraction in the γ-polymorph was measured in c-direction. The structures of the α- and the β-polymorphs slightly expanded on cooling in the directions close to c. The directions of maximum and minimum lattice strain were related to the directions of weak and strong hydrogen bonds in the structures. Crystal structures for the three polymorphs were refined at 294 K and at 150 K. The effects of cooling on the intramolecular geometry of glycine molecules and on the intermolecular hydrogen bonds in all the three polymorphs were compared. Structural distortion on cooling was compared with that on increasing hydrostatic pressure.
© 2003 Oldenbourg Wissenschaftsverlag GmbH
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Articles in the same Issue
- Solution of the structure and disorder of Ln13Br18B3 (Ln = Gd, Tb)
- Anomalous thermal expansion behaviour of Na8[AlSiO4]6(NO3)2-sodalite: P4̅3n to Pm3̅n phase transition by untilting and contraction of TO4 units
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- Crystal chemistry of lead oxide phosphates: crystal structures of Pb4O(PO4)2, Pb8O5(PO4)2 and Pb10(PO4)6O
- Structural distortion of the α, β, and γ polymorphs of glycine on cooling
- Synthesis, structural and spectral studies of N-p-methylbenzyliden-N-phenyl-p,p′-dimethoxybenzoyl acetic acid hydrazide
- Crystal structure of an inclusion complex between chiral monoaza-15-crown-5 and S(–)-1-phenyl-ethyl ammonium percholorate
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