Stochastic polarity formation in molecular crystals, composite materials and natural tissues

Hulliger, Jürg; Burgener, Matthias; Hesterberg, Rolf; Sommer, Martin; Brahimi, Khadidja; Aboulfadl, Hanane

doi:10.1107/s205225251700700x

“…[23] This observation is supported by recent research on substi-tuted benzoic acids,w hich demonstrated that aromatic stacking-not hydrogen bonding-is akey step in nucleation and cluster growth in solution. [25] Polar crystals formed by dipolar molecules can build up substantial electric polarity,l eading to instability during crystal growth. The calculated molecular dipole moment of HCT in form Ii s 11.1 D( B3LYP/6-31G(d,p)), and the vector sum of these molecular dipoles gives m cell = 16.8 Da long the b axis.T he formation of polar domains in crystals is af undamental problem in current crystal-nucleation research.…”

Section: Angewandte Chemiementioning

confidence: 99%

Investigation of an Unusual Crystal Habit of Hydrochlorothiazide Reveals Large Polar Enantiopure Domains and a Possible Crystal Nucleation Mechanism

Thomas

¹

,

Grosjean

²

,

Flematti

³

et al. 2019

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The observation of an unusual crystal habit in the common diuretic drug hydrochlorothiazide (HCT), and identification of its subtle conformational chirality,has stimulated ad etailed investigation of its crystalline forms.E nantiomeric conformers of HCT resolve into an unusual structure of conjoined enantiomorphic twin crystals comprising enantiopure domains of opposite chirality.The purity of the domains and the chiral molecular conformation are confirmed by spatially revolved synchrotron micro-XRD experiments and neutron diffraction, respectively.M acroscopic inversion twin symmetry observed between the crystal wings suggests apseudoracemic structure that is not as olid solution or al ayered crystal structure,but an unusual structural variant of conglomerates and racemic twins.C omputed interaction energies for molecular pairs in the racemic and enantiopure polymorphs of HCT,a nd the observation of large opposing unit-cell dipole moments for the enantiopure domains in these twin crystals, suggest ap lausible crystal nucleation mechanism for this unusual crystal habit.

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“…The calculated molecular dipole moment of HCT in form I is 11.1 D (B3LYP/6‐31G(d,p)), and the vector sum of these molecular dipoles gives μ cell =16.8 D along the b axis. The formation of polar domains in crystals is a fundamental problem in current crystal‐nucleation research . Polar crystals formed by dipolar molecules can build up substantial electric polarity, leading to instability during crystal growth.…”

Section: Figurementioning

confidence: 99%

Investigation of an Unusual Crystal Habit of Hydrochlorothiazide Reveals Large Polar Enantiopure Domains and a Possible Crystal Nucleation Mechanism

Thomas

¹

,

Grosjean

²

,

Flematti

³

et al. 2019

View full text Add to dashboard Cite

The observation of an unusual crystal habit in the common diuretic drug hydrochlorothiazide (HCT), and identification of its subtle conformational chirality,has stimulated ad etailed investigation of its crystalline forms.E nantiomeric conformers of HCT resolve into an unusual structure of conjoined enantiomorphic twin crystals comprising enantiopure domains of opposite chirality.The purity of the domains and the chiral molecular conformation are confirmed by spatially revolved synchrotron micro-XRD experiments and neutron diffraction, respectively.M acroscopic inversion twin symmetry observed between the crystal wings suggests apseudoracemic structure that is not as olid solution or al ayered crystal structure,but an unusual structural variant of conglomerates and racemic twins.C omputed interaction energies for molecular pairs in the racemic and enantiopure polymorphs of HCT,a nd the observation of large opposing unit-cell dipole moments for the enantiopure domains in these twin crystals, suggest ap lausible crystal nucleation mechanism for this unusual crystal habit.

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“…In previous investigations, the morphogenesis and characteristics of apatite–(CaF)–gelatin composites, which were synthesized within a gelatin gel with the double-diffusion technique, were described in detail from the nanometer to the micrometer scale. ,− Furthermore, in order to synthesize a material that is even more closely related to biological hard tissues, the influence of carbonate substitution in the apatite–(CaF) component of the composite material, which was grown within a gelatin gel, was investigated. − The complex interactions of apatite and gelatine in composite materials were also probed by NMR. , The self-assembly of biomolecules in these synthetic materials such as apatite–(CaF)–gelatin composites was investigated by scanning pyroelectric microscopy (SPEM) and compared to that of natural tissues. , It was found that the grown apatite–(CaF)–gelatin composites revealed polarity, similar to in vivo tissues. In the case of noncentrosymmetric space groups (SGs), the polar axis in the crystal shows the direction along which the polar properties can be measured (incl.…”

Section: Introductionmentioning

confidence: 99%

Polar Structure Formation in Solid Solution of Strontium-Substituted Fluorapatite–Gelatin Composites: From Structural and Morphogenetic Aspects to Pyroelectric Properties

Knaus

¹

,

Sommer

²

,

Duchstein

³

et al. 2020

Self Cite

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Strontium-substituted apatite–(CaF)–gelatin composites have been synthesized within a gelatin gel using the double-diffusion technique. All experimental parameters were kept constant while systematically varying the strontium/calcium molar ratio in solution. The effect of the presence of strontium ions in the growth solution on composition, morphogenesis, and morphology as well as pyroelectric properties of synthetic aggregates was systemically analyzed. It was shown that strontium ions significantly inhibit the growth process of composite aggregates and increase growth anisotropy along [0001], which were also confirmed and explained using molecular dynamic simulations. Furthermore, the promotion of the crystal branching processes and spherulite formation were observed. Pyroelectric microscopy (SPEM) measurements on mixed substituted apatite–(CaSrF)–gelatin composite aggregates showed an increase in polar properties, suggesting a lowering of the crystal symmetry. This was verified by Rietveld refinement of synchrotron powder X-ray diffraction, which revealed the noncentrosymmetric P63 apatite crystal structure. These data could shed new light on understanding piezoelectric and pyroelectric properties of apatite-based biological hard tissues.

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Stochastic polarity formation in molecular crystals, composite materials and natural tissues

Cited by 10 publications

References 50 publications

Investigation of an Unusual Crystal Habit of Hydrochlorothiazide Reveals Large Polar Enantiopure Domains and a Possible Crystal Nucleation Mechanism

Investigation of an Unusual Crystal Habit of Hydrochlorothiazide Reveals Large Polar Enantiopure Domains and a Possible Crystal Nucleation Mechanism

Investigation of an Unusual Crystal Habit of Hydrochlorothiazide Reveals Large Polar Enantiopure Domains and a Possible Crystal Nucleation Mechanism

Polar Structure Formation in Solid Solution of Strontium-Substituted Fluorapatite–Gelatin Composites: From Structural and Morphogenetic Aspects to Pyroelectric Properties

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