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Disorder and polymorphism in Cu(II)-polyoxometalate complexes: [Cu-1.5(H2O)(7.5)PW12O40]center dot 4.75H(2)O, cis- & trans-[Cu-2(H2O)(10)SiW12O40]center dot 6H(2)O

last modified Oct 04, 2016 07:07 AM

Disorder and polymorphism in Cu(II)-polyoxometalate complexes: [Cu-1.5(H2O)(7.5)PW12O40]center dot 4.75H(2)O, cis- & trans-[Cu-2(H2O)(10)SiW12O40]center dot 6H(2)O

Bajpe, Sneha R.; Henke, Sebastian; Lee, Jung-Hoon; et al.

Abstract

Three highly crystalline Cu(II)-polyoxometalate (POM) complexes, [Cu1.5(H2O)7.5PW12O40]·4.75H2O and cis- and trans-[Cu2(H2O)10SiW12O40]·6H2O, were successfully synthesized and characterized by single crystal and powder X-ray diffraction as well as thermogravimetric analysis. All complexes feature octahedrally coordinated, Jahn–Teller-distorted CuII centres, which are coordinated by one terminal oxygen atom of the POM anion and five water molecules. The crystal structure of [Cu1.5(H2O)7.5PW12O40]·4.75H2O, reveals four-fold disorder at one of the two Cu-sites, whereas [Cu2(H2O)10SiW12O40]·6H2O crystallizes in two fully-ordered polymorphic forms: a monoclinic structure containing an angledcis configuration of the Cu-POM-Cu molecule and a triclinic structure containing a linear transconfiguration. Density functional theory (DFT) calculations show that the cis polymorph of [Cu2(H2O)10SiW12O40]·6H2O is more stable than the trans form by about 30 kJ mol−1.