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STRUCTURAL SCIENCE
CRYSTAL ENGINEERING
MATERIALS

Volume 58| Part 4

ISSN: 2052-5206

August 2002 issue

Cover illustration: The structure of remacemide nitrate (C₁₇H₂₁N₂O⁺·NO₃^-) solved from powder diffraction data using a global optimization approach based on maximum likelihood. Only the remacemide molecule is optimized while the nitrate ion is treated as an unknown blur [Markvardsen, David & Shankland, Acta Cryst. (2002), A58. Submitted]. Image produced by Dr A. Florence, University of Strathclyde, Scotland, using POV-ray 3.1.

research papers

Electron density and energy density view on the atomic interactions in SrTiO₃

E. A. Zhurova and V. G. Tsirelson

Topological analysis of the electron density and the local kinetic, potential and total electronic energies was performed for the cubic SrTiO₃ crystal using a multipole model fitted to the experimental and theoretical X-ray diffraction structure factors.

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X-ray study and structure simulation of amorphous tungsten oxide

L. A. Lugovskaya, L. A. Aleshina, G. M. Kalibaeva and A. D. Fofanov

The short-range order of the amorphous tungsten oxide obtained by thermal evaporation of WO₃ powder in a vacuum and anodic amorphous tungsten oxide has been investigated by X-ray methods and molecular dynamics simulations.

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The structure of trititanate nanotubes

Q. Chen, G. H. Du, S. Zhang and L.-M. Peng

Combining information from X-ray diffraction, selected-area electron diffraction, high-resolution transmission electron microscopy and image simulation, a structural model is derived for trititanate nanotubes.

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Symmetrieverwandtschaften bei Varianten des Perowskit-Typs

O. Bock and U. Müller

Family trees of symmetry relationships among derivatives of the perovskite structure have been set up using crystallographic group–subgroup relations. 56 known structure types exhibiting various kinds of distortions and atom substitutions have been interrelated.

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Structure and phase transitions of LiTaOGeO₄

T. Malcherek

The ordered structure of LiTaOGeO₄ at 173 K and its transition to the paraphase at T_c = 231 K are reported. Similarities to the structure and phase transitions of titanite, CaTiOSiO₄, and related compounds are discussed. Anharmonic thermal displacement of the Li atom is analyzed and a one-particle description of Li site disorder in the paraphase is obtained.

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Simulated annealing structure solution of a new phase of dicalcium silicate Ca₂SiO₄ and the mechanism of structural changes from α-dicalcium silicate hydrate to α_L′-dicalcium silicate via the new phase

H. Toraya and S. Yamazaki

The crystal structure of a new phase of dicalcium silicate (Ca₂SiO₄) has been determined by simulated annealing and refined by the Rietveld method using synchrotron radiation powder diffraction data. The mechanism of structural changes from α-dicalcium silicate hydrate to $\alpha _{\rm L} ^\prime$ -dicalcium silicate via the new phase is discussed.

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Diffuse X-ray scattering and reverse Monte Carlo simulation of the short-range order in ytterbium iodine phthalocyanine [YbPc₂]I₂

J. Krawczyk, A. Pietraszko and K. Łukaszewicz

Ytterbium iodine phthalocyanine, [YbPc₂]I₂ (YPI), presents an example of a disordered modulated crystal structure of the intergrowth type. The short-range order in YPI of both ytterbium ions and of iodine chains [ ${\rm I} _{3} ^{-}$ ]_n has been determined by X-ray diffuse scattering.

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Asymmetric hydrogen bonds in centrosymmetric environment. II. Neutron study of very short hydrogen bonds in potassium hydrogen dichloromaleate at 90 K and 170 K

I. Olovsson, H. Ptasiewicz-Bak, T. Gustafsson and I. Majerz

The very short hydrogen bonds in potassium hydrogen dichloromaleate have been studied by neutron diffraction at 170 K and 90 K. The hydrogen bonds are asymmetric although the environment is centrosymmetric, in complete agreement with our earlier studies at 295 K and 30 K.

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The mapping of electronic energy distributions using experimental electron density

V. G. Tsirelson

The approximate kinetic, potential and electronic energy densities calculated using the density functional theory formulae and model electron density derived from experimental structure factors are studied. The use of these functions for quantitative characterization of bonding in molecules and crystals is demonstrated.

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CSDSymmetry: the definitive database of point-group and space-group symmetry relationships in small-molecule crystal structures

J. W. Yao, J. C. Cole, E. Pidcock, F. H. Allen, J. A. K. Howard and W. D. S. Motherwell

A molecular database, CSDSymmetry, with nearly 200 000 entries, has been constructed. This database allows flexible and easy searching for relationships between molecular and crystallographic symmetry.

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Crystal structure prediction of small organic molecules: a second blind test

W. D. S. Motherwell, H. L. Ammon, J. D. Dunitz, A. Dzyabchenko, P. Erk, A. Gavezzotti, D. W. M. Hofmann, F. J. J. Leusen, J. P. M. Lommerse, W. T. M. Mooij, S. L. Price, H. Scheraga, B. Schweizer, M. U. Schmidt, B. P. van Eijck, P. Verwer and D. E. Williams

A second blind test of crystal structure prediction for three organic molecules is reported, using the principal computer programs currently available. A correct prediction based on energy was found for the two rigid molecules but not for the third flexible molecule.

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Simple model designed to generate new crystal structures derived from a mother phase; application to molecular compounds

C. Gervais and G. Coquerel

The basic principles of a model predicting new lattices from a known crystal structure are described. The first of the two-step procedure consists of extracting one- or two-dimensional periodic fragments from the mother structure. In the second step, symmetry operators are added to the periodic fragments in order to generate one or several new three-dimensional lattices consistent with the 230 space groups.

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Crystal structure of 5-oxatricyclo[5.1.0.0^1,3]octane-4-one: two polymorphs in one crystal

D. S. Yufit, S. I. Kozhushkov, J. A. K. Howard and A. de Meijere

Two subsets of data, corresponding to different crystalline modifications of the title compound, have been obtained from the same experiment. Both structures were successfully solved and refined. The packing of identical layers of molecules is different for monoclinic and orthorhombic forms.

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On the influence of thermal motion on the crystal structures and polymorphism of even n-alkanes

J. van de Streek, P. Verwer, P. Bennema and E. Vlieg

Thermal motion is crucial in explaining the discrepancies between molecular modelling and experiment with respect to the structures and relative stabilities of the polymorphs of even n-alkanes.

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Variable-temperature studies of the 4-isopropylphenol crystal structure from X-ray diffraction. Comparison of thermal expansion and molecular dynamics with spectroscopic results

G. Wójcik and J. Holband

The 4-isopropylphenol crystal structure, thermal expansion and rigid-body analysis of anisotropic displacement parameters were studied in the 95–300 K range.

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X-ray and neutron diffraction studies of the non-linear optical compounds MBANP and MBADNP at 20 K: charge-density and hydrogen-bonding analyses

J. M. Cole, A. E. Goeta, J. A. K. Howard and G. J. McIntyre

The nature of the hydrogen bonding in two organic non-linear optical compounds, MBANP and MBADNP, as determined by neutron diffraction, is related to their differing second-harmonic generation outputs. A charge-density study of MBADNP elucidates the nature of the highly influential intramolecular hydrogen bond and also reveals the nature of the polarizability within the molecule.

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Interplay of hydrogen bonds, iodo⋯nitro interactions and aromatic π⋯π stacking interactions in iodo-nitroanilines

S. J. Garden, S. P. Fontes, J. L. Wardell, J. M. S. Skakle, J. N. Low and C. Glidewell

In iodo-nitroanilines, the molecules can be linked by N—H⋯O hydrogen bonds, two- or three-centre iodo⋯nitro interactions and aromatic π⋯π stacking interactions. The resulting supramolecular structures can be two- or three-dimensional.

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Crystal structures of ecdysteroids: the role of solvent molecules in hydrogen bonding and isostructurality

L. Fábián, G. Argay, A. Kálmán and M. Báthori

A detailed analysis of hydrogen-bond networks in solvent-free and solvated ecdysteroid crystals allows an interpretation of the role of molecular structure modifications in crystal packing and in solvent incorporation into the lattice.

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Reproducability and transferability of topological properties; experimental charge density of the hexapeptide cyclo-(D,L-Pro)–(L-Ala) monohydrate

B. Dittrich, T. Koritsánszky, M. Grosche, W. Scherer, R. Flaig, A. Wagner, H. G. Krane, H. Kessler, C. Riemer, A. M. M. Schreurs and P. Luger

The charge density of a hexapeptide was determined from high-resolution CCD area-detector experiments at 100 K. Two datasets, one from a rotating anode and a second one from synchrotron radiation, were measured and the results are compared.

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Structural characterization of crystals of α-glycine during anomalous electrical behaviour

P. Langan, S. A. Mason, D. Myles and B. P. Schoenborn

The separation of antiferroelectric molecular layers in α-glycine increases over the temperature range in which these crystals display anomalous electronic properties and is driven by an increase in molecular libration.

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X-ray studies on crystalline complexes involving amino acids and peptides. XXXIX. Crystal structures of malonic acid complexes of DL- and L-histidine. Preservation of aggregation pattern on reversal of chirality

N. T. Saraswathi and M. Vijayan

Unlike in other complexes involving DL- and L-amino acids, the aggregation patterns in the DL-histidine and L-histidine complexes of malonic acid remain almost exactly the same, with considerable conformational strain in one of the two crystallographically independent histidinium ions in the L-histidine complex.

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book reviews

Structural classification of minerals

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		EndNote
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		Medline
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Format		BIBTeX
		EndNote
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		Medline
		CIF
		SGML
		Plain Text
		Text

Format		BIBTeX
		EndNote
		RefMan
		Refer
		Medline
		CIF
		SGML
		Plain Text
		Text

issue contents

August 2002 issue

research papers

Electron density and energy density view on the atomic interactions in SrTiO₃

X-ray study and structure simulation of amorphous tungsten oxide

The structure of trititanate nanotubes

Symmetrieverwandtschaften bei Varianten des Perowskit-Typs

Structure and phase transitions of LiTaOGeO₄

Simulated annealing structure solution of a new phase of dicalcium silicate Ca₂SiO₄ and the mechanism of structural changes from α-dicalcium silicate hydrate to α_L′-dicalcium silicate via the new phase

Diffuse X-ray scattering and reverse Monte Carlo simulation of the short-range order in ytterbium iodine phthalocyanine [YbPc₂]I₂

Asymmetric hydrogen bonds in centrosymmetric environment. II. Neutron study of very short hydrogen bonds in potassium hydrogen dichloromaleate at 90 K and 170 K

The mapping of electronic energy distributions using experimental electron density

CSDSymmetry: the definitive database of point-group and space-group symmetry relationships in small-molecule crystal structures

Crystal structure prediction of small organic molecules: a second blind test

Simple model designed to generate new crystal structures derived from a mother phase; application to molecular compounds

Crystal structure of 5-oxatricyclo[5.1.0.0^1,3]octane-4-one: two polymorphs in one crystal

On the influence of thermal motion on the crystal structures and polymorphism of even n-alkanes

Variable-temperature studies of the 4-isopropylphenol crystal structure from X-ray diffraction. Comparison of thermal expansion and molecular dynamics with spectroscopic results

X-ray and neutron diffraction studies of the non-linear optical compounds MBANP and MBADNP at 20 K: charge-density and hydrogen-bonding analyses

Interplay of hydrogen bonds, iodo⋯nitro interactions and aromatic π⋯π stacking interactions in iodo-nitroanilines

Crystal structures of ecdysteroids: the role of solvent molecules in hydrogen bonding and isostructurality

Reproducability and transferability of topological properties; experimental charge density of the hexapeptide cyclo-(D,L-Pro)–(L-Ala) monohydrate

Structural characterization of crystals of α-glycine during anomalous electrical behaviour

X-ray studies on crystalline complexes involving amino acids and peptides. XXXIX. Crystal structures of malonic acid complexes of DL- and L-histidine. Preservation of aggregation pattern on reversal of chirality

book reviews

Structural classification of minerals

books received

Chirality: physical chemistry

Physics of ice

Physics meets mineralogy: condensed matter physics in the geosciences

Modulated structures

Meetings