화학공학소재연구정보센터
Inorganic Chemistry, Vol.46, No.16, 6755-6766, 2007
Effects of central metal ions on vibrational circular dichroism spectra of Tris-(beta-diketonato)metal(III) complexes
Vibrational circular dichroism (VCD) spectra of a series of [M(III)(acac)(3)] (acac = acetylacetonato; M = Cr, Co, Ru, Rh, Ir, and Al) and [M(III)(acac)(2)(dbm)] (dbm = dibenzoylmethanato; M = Cr, Co, and Ru) have been investigated experimentally and/or theoretically in order to see the effect of the central metal ion on the vibrational dynamics of ligands. The optical antipodes give the mirror-imaged spectra in the region of 1700-1000 cm(-1). The remarkable effect of the central metal ion is observed experimentally on the VCD peaks due to C-O stretches (1500-1300 cm(-1)) for both [M(III)(acac)(3)] and [M(III)(acac)(2)(dbm)]. In the case of Delta-[M(III)(acac)(3)], for example, the order of frequency of two C-O stretches (E and A(2) symmetries) is dependent on the kind of a central metal ion as follows: E (-) > A(2) (+) for M = Co, Rh, and Ir, while A(2) (+) > E (-) for M = Cr and Ru. In the case of Delta-[M(III)(acac)(2)(dbm)], the order of frequency of three C-O stretches (A, B, and B symmetries) is as follows: A (-) > B (+) > B (+) for Co(III), B (+) > A (-) > B (-) for Cr(III), and A (-) > B (+) > B (-) for Ru(III). These results imply that the energy levels of C-O stretches are delicately affected by the kind of central metal ion. Since such detailed information is not obtained from the IR spectra alone, the VCD spectrum can probe the effect of the central metal ion on interligand cooperative vibration modes.