CRYSTAL AND MOLECULAR-STRUCTURE OF [V2O3(SAL-L-VAL)(2)(H2O)] (SAL-L-VAL EQUALS N-SALICYLIDENE-L-VALINATE) AND SPECTROSCOPIC PROPERTIES OF RELATED COMPLEXES

The dinuclear vanadium(v) complex [V2O3(sal-L-val)(2)(H2O)] 1 (sal-L-v al = N-salicylidene-L-valinate) has been prepared and characterized an d its crystal structure determined. The compound contains a:double bri dge by O (oxo) and O (carboxylate) and is one of the rare examples whe re the two VO groups make an angle near 90 degrees. There are two inde pendent molecules, A and B, in the asymmetric unit which are similar a nd each consists of two VO(sal-L-val) groups at nearly right angles to each other. They exhibit a distorted-octahedral geometry, involving i n the equatorial plane the O,N,O atoms of the Schiff-base ligand and t he bridging O (oxo) group and in the axial positions a carboxyl oxygen of the second VO(sal-L-val) group and a water molecule. The bridging V-O(oxo) bond lengths range between 1.787 and 1.823 Angstrom, and are significantly shorter than the bridging V-O(carboxylate), ranging betw een approximate to 1.93-1.94 Angstrom for equatorial and approximate t o 2.40-2.43 Angstrom for axial. Several known [VO(sal-L-aa)(H2O)] and new [VO(sal-L-aa)(bipy)] (sal-L-aa = N-salicylidene-L-amino acidate, b ipy = 2,2'-bipyridine) complexes were also prepared and their spectros copic (ESR, UV and CD) properties studied. A correlation observed betw een the CD intensities and the size of the amino acid side groups is d iscussed.