Antiferromagnetic complexes involving metalmetal bonds. II. The conditions for observation and means of intented variation of antiferromagnetic properties of binuclear complexes involving CrCr and VV bonds

The complex, (CpctSCMe~)zS (I), contains a Cr-Cr bond (2.689 A) and at the same time shows antiferromagnetic properties (-2J = 430 cm-'). It reacts with PhEH (E is S, Se) or MeI to give binuclear complexes (CpCrEPh)$ or [(CpCrSCMe,),SMe] 'Icharacterized by exchange parameter, -23. values of 496, 378, and 350 cm-', respectively. Reaction between Cp,Cr and PhEH yields the antiferromagnetic trimer [QCk(SPh)2] 3 (-2J = 194 cm-') and dimer [CpCr(SePhjz] 2 (-2J = 208 cm-'). CPV(CO)~ reacts with PhEH to give dimeric complexes [QV(EPh),] 2 one of which shows an tiferromagnetic behavtiur (E = Se, -25 = 700 cm-') and the other one is a diamagnetic substance (E = S, -2J>> 1000 cm-'). The magnetic properties of the complexes are treated in terms of the exchange channel model. It is shown that antiferromagnetic behaviour (magnetic moment decreases with temperature) of binuclear complexes involving direct metal-metal bonds may be expected when the paramagnetk ions are in high-spin states (S 2 I). In such complexes, variations in metal-metal bond strength caused by ligand substitution may be studied by the methods of magnetochemistry.