Exploring the crystallization landscape of cadmium bis(N-hydroxyethyl, N-isopropyldithiocarbamate), Cd[S2CN(iPr)CH2CH2OH]2
Crystallization of Cd[S2CN(iPr)CH2CH2OH]2 from ethanol yields the coordination polymer [{Cd[S2CN(iPr) CH2CH2OH]2}·EtOH]∞ (1) within 3 h. When the solution is allowed to stand for another hour, the needles begin to dissolve and prisms emerge of the supramolecular isomer (SI), binuclear {Cd[S2CN(...
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| Main Authors: | , , |
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| Format: | Article |
| Language: | English |
| Published: |
De Gruyter
2016
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| Subjects: | |
| Online Access: | http://eprints.sunway.edu.my/617/1/ZKrist.%20231%202016%20113_Deposited.pdf http://eprints.sunway.edu.my/617/ http://dx.doi.org/10.1515/zkri-2015-1889 |
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| Summary: | Crystallization of Cd[S2CN(iPr)CH2CH2OH]2 from
ethanol yields the coordination polymer [{Cd[S2CN(iPr)
CH2CH2OH]2}·EtOH]∞ (1) within 3 h. When the solution is
allowed to stand for another hour, the needles begin to
dissolve and prisms emerge of the supramolecular isomer
(SI), binuclear {Cd[S2CN(iPr)CH2CH2OH]2}2·2EtOH (2).
These have been fully characterized spectroscopically
and by X-ray crystallography. Polymeric 1 has 2-fold symmetry
and features dithiocarbamate ligands coordinating
two octahedral Cd atoms in a μ2κ2-tridentate mode.
Binuclear 2 is centrosymmetric with two ligands being
μ2κ2-tridentate as for 1 but the other two being κ2-chelating
leading to square pyramidal geometries. The conversion
of the kinetic crystallization product, 1, to thermodynamic
2 is irreversible but transformations mediated by recrystallization
(ethanol and acetonitrile) to related literature
SI species, namely coordination polymer [{Cd[S2CN(iPr)
CH2CH2OH]2}3·MeCN]∞ and binuclear {Cd[S2CN(iPr)CH2CH
2
OH]2}2·2H2O·2MeCN, are demonstrated, some of which
are reversible. Three other crystallization outcomes are
described whereby crystal structures were obtained for
the 1:2 co-crystal {Cd[S2CN(iPr)CH2CH2OH]2}2:2[3-(propan-
2-yl)-1,3-oxazolidine-2-thione] (3), the salt co-crystal [iPr
NH2(CH2CH2OH)]4[SO4]2{Cd[S2CN(iPr)CH2CH2OH]2}2 (4) and
the salt [iPrNH2(CH2CH2OH)]{Cd[S2CN(iPr)CH2CH2OH]3} (5).
These arise as a result of decomposition/oxidation of the
dithiocarbamate ligands. In each of 3 and 4 the binuclear
{Cd[S2CN(iPr)CH2CH2OH]2}2 SI, as in 2, is observed strongly
suggesting a thermodynamic preference for this form. |
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