Hybrid materials containing organometallic cations and 3-D anionic metal dicyanamide networks of type [Cp*2M][M'(dca)3 |
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Authors: | Van der Werff Patricia M Martínez-Ferrero Eugenia Batten Stuart R Jensen Paul Ruiz-Pérez Catalina Almeida Manuel Waerenborgh Joao C Cashion John D Moubaraki Boujemaa Galán-Mascarós José Ramón Martínez-Agudo José María Coronado Eugenio Murray Keith S |
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Institution: | Instituto de Ciencia Molecular, Universidad de Valencia, Dr. Moliner, 50, 46100, Burjassot, Spain. |
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Abstract: | A new series of hybrid materials of type Cp*2M]M'(dca)3] has been prepared by cation templation and structurally characterised (M = Fe(III), Co(III); M'= Mn(II), Fe(II), Co(II), Ni(II), Cd(II); dca-= N(CN)2-). The crystallographic analysis of Cp*2Fe]Cd(dca)(3)] showed that the Cd(dca)3]- anionic framework is of a symmetrical 3-D alpha-polonium type, containing octahedral Cd nodes and micro (1,5)-dca bridging ligands. The Cp*2Fe]+ cations occupy the cube-like cavities within the framework. The cationic and anionic-framework sublattices remain magnetically independent and display susceptibilities, over the range 300 to 2 K, of a Curie-Weiss nature obtained by adding a S= 1/2 (Cp*2Fe+) or a S= 0 (Cp*2Co+) contribution to those of the weakly antiferromagnetically coupled frameworks of M'. These hybrid species do not show any intrinsic long-range magnetic order. The present Cp*2Fe]M'(dca)3] series display the characteristic, unusually shaped Cp*2Fe]+ Mossbauer line, in the range 295-5 K, assigned (below 101 K) as the sum of a narrow and a broad line. Relaxation effects were evident. The Fe(dca)3]- compound showed superimposed low-spin Fe(III) and high-spin Fe(II) lines, the latter giving relaxation broadening effects. |
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