Tunable Crystal-to-Crystal Phase Transition in a Cadmium Halide Chain Polymer

Lamberts, Kevin; Kalf, Irmgard; Ramadan, A. A.; Müller, Paul; Dronskowski, Richard; Englert, Ulli

doi:10.3390/polym3031151

Cited by 18 publications

(13 citation statements)

References 13 publications

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“…Crystals of 6 , albeit of good quality at ambient temperature, undergo a second‐order phase transition to monoclinic twins upon cooling; at temperatures above the phase transition, deformation density and thermal motion cannot be reliably deconvoluted. In agreement with the above observations, the second‐order phase transition temperature in mixed‐cation solids of the composition [Cd(μ‐Cl) 2– x (μ‐Br) x py 2 ] ∞ (0 < x < 2) is a function of the chemical composition 25,26. In contrast to these shortcomings encountered for 5 and 6 , excellent crystals were available for compound 7 ; it is isomorphous to 1 , 2 and 4 , the chain polymers with halide substituents in 3 and 5 position of the pyridine ligands.…”

Section: Resultssupporting

confidence: 84%

Charge Density of Intra‐ and Intermolecular Halogen Contacts

Wang

Dols

Lehmann

et al. 2013

Zeitschrift anorg allge chemie

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Remarkably short contacts involving halogen atoms, although well documented decades ago, have recently found increasing interest as potentially relevant in the context of crystal engineering. X-ray diffraction data of sufficient quality and resolution allow to experimentally determine the charge density in crystals featuring such contacts and hence to associate this observable quantity with effects of molecular packing. Results from charge density studies covering interhalogen contacts over a distance range significantly shorter and considerably longer than mere van-der-Waals contacts are reported, and their relevance for the crystal chemistry of the compounds under investigation is discussed. A first trend for intra- and intermolecular Cl···Cl interactions indicates that the shortest among these contacts, with a distance of ca. 3.2 Å, can compete with weak hydrogen bonds

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Section: Resultssupporting

confidence: 84%

Charge Density of Intra‐ and Intermolecular Halogen Contacts

Wang

Dols

Lehmann

et al. 2013

Zeitschrift anorg allge chemie

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“…An Oxford Cryosystems 700 controller was used to ensure constant temperature during data collection. Previous work on phase transitions conducted in parallel on single crystals and on powder at 120 K (Hu & Englert, 2005), at 207 K (Hu et al, 2003) and over the temperature range 175-325 K (Lamberts et al, 2011) indicated a reproducibility of better than 2 K and a temperature match of better than 5 K with alternative cooling devices. Frames were collected in !-scan mode in nine runs with different settings for detector angle and crystal rotation ' and integrated with the help of the program SAINT (Bruker, 2003).…”

Section: Diffraction Experiments On (1)mentioning

confidence: 97%

The whole range of hydrogen bonds in one crystal structure: neutron diffraction and charge-density studies ofN,N-dimethylbiguanidinium bis(hydrogensquarate)

Şerb

Wang

Meven

et al. 2011

Acta Crystallogr B Struct Sci

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N,N-Dimethylbiguanidinium bis(hydrogensquarate) features an impressive range of hydrogen bonds within the same crystal structure: neighbouring anions aggregate to a dianionic pair through two strong O-H···O interactions; one of these can be classified among the shortest hydrogen bonds ever studied. Cations and anions in this organic salt further interact via conventional N-H···O and nonclassical C-H···O contacts to an extended structure. As all these interactions occur in the same sample, the title compound is particularly suitable to monitor even subtle trends in hydrogen bonds. Neutron and high-resolution X-ray diffraction experiments have enabled us to determine the electron density precisely and to address its properties with an emphasis on the nature of the X-H···O interactions. Sensitive criteria such as the Laplacian of the electron density and energy densities in the bond-critical points reveal the incipient covalent character of the shortest O-H···O bond. These findings are in agreement with the precise geometry from neutron diffraction: the shortest hydrogen bond is also significantly more symmetric than the longer interactions.

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“…We have investigated the structural chemistry of the reaction products of manganese halides with racemic and enantiopure proline and highlighted the role of chirality for the solid-state structures of the products (Lamberts & Englert, 2012). Additionally we have shown that a solid-state property such as the temperature for a certain phase transition may be tuned by isomorphous replacement (Lamberts et al, 2011), similar to the situation in classical inorganic salts. In this contribution we address the structural chemistry of racemic and enantiopure alanine derivatives of metal halides, both for the alkaline earth cation Ca II and the transition metal ion Mn II .…”

Section: Introductionmentioning

confidence: 93%

Enantiopure and racemic alanine as bridging ligands in Ca and Mn chain polymers

Lamberts

Möller

Englert

2014

Acta Crystallogr Sect B

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Under accelerated and controlled evaporation, chain polymers crystallize from aqueous solutions of Ca(II) and Mn(II) halides with enantiopure L-alanine or racemic DL-alanine. In all ten solids thus obtained zwitterionic amino acid ligands bridge neighbouring cations. The exclusively O-donor-based coordination sphere around the metal cations is completed by aqua ligands; the halides remain uncoordinated and act as counter-anions for the cationic strands. Despite the differences in ionic radii and electronic structure between the main group and the transition metal cation, their derivatives with L-alanine share a common structure type. In contrast, the solids derived from DL-alanine differ and adopt structures depending on the metal cation and the halide. Homochiral chains of either chirality or heterochiral chains with different arrangements of crystallographic inversion centres along the polymer strands are encountered. On average, the six-coordinated Ca(II) cations, devoid of any ligand field effect, show more pronounced deviation from idealized octahedral geometry than the d-block cation Mn(II).

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Tunable Crystal-to-Crystal Phase Transition in a Cadmium Halide Chain Polymer

Cited by 18 publications

References 13 publications

Charge Density of Intra‐ and Intermolecular Halogen Contacts

Charge Density of Intra‐ and Intermolecular Halogen Contacts

The whole range of hydrogen bonds in one crystal structure: neutron diffraction and charge-density studies ofN,N-dimethylbiguanidinium bis(hydrogensquarate)

Enantiopure and racemic alanine as bridging ligands in Ca and Mn chain polymers

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