The hexanuclear cages Mn 6 O 2 (R-sao) 6 L 2 (EtOH) x (H 2 O) y "Mn 6 " behave as single-molecule magnets (SMMs) below a characteristic blocking temperature. As with Mn 12 O 12 (O 2 CR) 16 (H 2 O) 4 "Mn 12 " the electronic absorption spectra are rather featureless, yielding little information on the electronic structure of the magnetic ions. Low temperature Magnetic Circular Dichroism (MCD) spectra afford greater resolution of the optical transitions and also probe the magnetic properties of the system. Both the ground state spin and blocking temperature of the Mn 6 cages are determined by subtle structural perturbations of a generic Mn 6 O 2 core. Absorbance and MCD spectra are reported for Mn 6 O 2 (Et-sao) 6 {O 2 CPh(Me) 2 } 2 (EtOH) 6 ( 1 ), Mn 6 O 2 (Et-sao) 6 {O 2 CPh} 2 (EtOH) 4 (H 2 O) 2 ( 2 ), Mn 6 O 2 (sao) 6 {O 2 CPh} 2 (EtOH) 4 ·EtOH ( 3 ) and the trinuclear precursor Mn 3 O(Et-sao) 3 (MeOH) 3 (ClO 4 ) ( 4 ) cast into polymer film. SMM behaviour has previously been observed using magnetic susceptibility measurements on powder and single-crystal samples. The ligand field environment of the magnetic ions is assumed to be similar in ( 1 ) and ( 2 ) and their different blocking temperatures are attributed to the magnitude of the effective exchange constant. The MCD spectra of ( 1 ) and ( 2 ), in which the ground state spin S = 12, show that the ligand field environments of the Mn ions are almost identical and that magnetic hysteresis persists for isolated molecules when crystal packing forces are removed. The subtle structural differences between ( 1 ) and ( 2 ) are manifested in the field dependence of the MCD response at different wavelengths that reflect changes in band polarisation. The MCD spectrum of ( 3 ) contains features not apparent in those of ( 1 ) and ( 2 ). These are attributed to 5-coordinate Mn( iii ), which is unique to ( 3 ) among the compounds studied. ( 3 ) has ground state spin S = 4, a lower blocking temperature and consequently no observable hysteresis in the MCD down to 1.7 K. Comparison of the MCD spectra of ( 1 )-( 3 ) to that of ( 4 ) confirms the integrity of the Mn 6 O 2 core when these materials are cast into polymer film. MCD spectroscopy shows the SMM behaviour of Mn 6 cages with ground state spin S = 12 to persist in isolated molecules.