Magnesium, calcium and strontium salts of phenylacetic acid

Arlin, Jean-Baptiste and Kennedy, Alan and Shankland, Kenneth (2012) Magnesium, calcium and strontium salts of phenylacetic acid. Acta Crystallographica Section C: Crystal Structure Communications, 68. M29-M33. ISSN 0108-2701 (https://doi.org/10.1107/S0108270111055284)

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Abstract

Three alkaline earth metal salts of phenylacetic acid were examined and all were found to have similar structural types to analogous salts of benzoic and halobenzoic acids. Thus, a synchrotron study shows that the cations in catena-poly[[[tetraaquamagnesium(II)]-mu-phenylacetato-kappa O-2:O'] phenylacetate], {[Mg(C8H7O2)(H2O)(4)](C8H7O2)}(n), form a one-dimensional coordination polymer that propagates through Mg-O-C-O-Mg interactions involving both crystallographically independent Mg centres (Z' = 2) and through translation along the a axis. The polymeric chains pack to give alternate inorganic layers and organic bilayers. The Ca and Sr species catena-poly[[[diaqua(phenylacetato-kappa O-2,O')calcium(II)]-mu(3)-phenylacetato-1':1:1 ''kappa O-4:O,O':O'] monohydrate], {[Ca(C8H7O2)(2)(H2O)(2)]center dot H2O}(n), and catena-poly-[[[diaqua(phenylacetato-kappa O-2,O')strontium(II)]-mu(3)-phenylacetato-1':1:1 ''kappa O-4:O,O':O'] monohydrate], {[Sr(C8H7O2)(2)(H2O)(2)]center dot H2O}(n), are essentially isostructural. Both form one-dimensional coordination polymers through a carboxylate group that forms four M-O bonds. The polymeric chains propagate via 2(1) screw axes parallel to the b axis and are further linked in the bc plane by hydrogen bonding involving the non-metal-bound water molecule. Similarly to the Mg salt, both have inorganic layers that alternate with organic bilayers.