Ferrocenyl-substituted nitronyl nitroxide in the design of one-dimensional magnets

By the reaction of M(hfac)2 (M = Mn(ii), Co(ii), Cu(ii), and Zn(ii); hfac is the hexafluoroacetylacetonate anion) and ferrocenyl-substituted nitronyl nitroxide (L), we succeeded in the synthesis of stable heterospin complexes: mononuclear [Zn(hfac)2L], trinuclear {[Cu(hfac)2]3L2} and chain polymer [Mn(hfac)2L]n and [Co(hfac)2L]n. The specific steric bulkiness of the ferrocenyl substituent leads to the formation of trans-type coordination polyhedra in the [Mn(hfac)2L]n and [Co(hfac)2L]n chains. The introduction of the ferrocene substituent leads to an effective weakening of intermolecular or interchain magnetic exchange coupling. Ferrimagnetic ordering was observed for one-dimensional complexes [M(hfac)2L]n (M = Mn(ii), Co(ii)). [Co(hfac)2L]n exhibits features of single-chain magnet behaviour: slow relaxation of magnetization below 13 K is associated with a high coercive field (54 kOe at 2 K). A trans-chain polymer Co(ii) complex with polyfunctional ferrocenyl-substituted nitroxide exhibits single-chain magnet behavior with TB approximate to 13 K and HC = 54 kOe.