Treatment of molecular building block [W(CN)8]3− with Co(NO3)2·6H2O or Cu(ClO4)2·6H2O in different reaction conditions affords two 3D (three-dimensional) metalloligand-bridged coordination polymers {[WV(CN)8Co2(DMF)8][NO3]}n1 and {WIV(CN)8Cu2(py)8}n2, respectively. The single-crystal X-ray structural analysis shows that both polymers 1 and 2 crystallize in the tetragonal crystal system with space group of I41/a and possess the similar 3D framework in a diamondoid topology geometry, although [W(CN)8]3− ion was reduced into [W(CN)8]4− in polymer 2 during the reaction process. The magnetic studies on coordination polymers 1 and 2 indicate that polymer 1 shows the typical ferromagnetic property with an ordering temperature of about 5 K but polymer 2 exhibits paramagnetic behavior due to the diamagnetic octacyanometalate bridge –NC–WIV(S = 0)–CN–.
![Graphical abstract: Two 3D coordination assemblies with same cluster configuration showing different magnetic behaviors: a ferromagnetic {[W(CN)8Co2(DMF)8][NO3]}n and a paramagnetic {W(CN)8Cu2(py)8}n](http://hg.y866.cn/compound/lib/scimg/usr/1/C0CE00227E.jpg)
