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Isomerism & Crystal Field Theory Chapter 24 – Lecture 3 Chemistry 123 Spring 2008 Dr. Woodward Isomers Different ligands make bonds to the metal Ligands bond to the metal through different atoms Ligands have different (ligand) neighbors Molecules are nonsuperimposable mirror images Linkage Isomers Geometric Isomers Optical Isomers Intra-atomic (d to d) excitations MnSO4 FeSO4 CoSO4 NiSO4 CuSO4 ZnSO4 In these complexes the color comes from absorption of light that leads to excitation of an electron from one d-orbital to a different d-orbital on the same metal cation. [M(H2O)6]n+ Complex ions H 2O M MO6 Octahedron dz2 & dx2-y2 orbitals (eg) Energy Crystal Field Splitting (Octahedron) • Point directly at the ligands • Stronger (repulsive) interaction with the ligands dxy, dyz & dxz orbitals (t2g) dz2 dx2-y2 dyz dxz • Point between the ligands • Weaker (repulsive) interaction with the ligands dxy Electrons in d-orbitals are repelled from the electrons in the ligands. The repulsion is stronger for electrons in d-orbitals pointing directly at the ligands. Energy Levels of d-orbitals in an octahedron Energy dz2 D dxy dyz dxz dz2 dx2-y2 Cr3+ ion with a spherical crystal field dxy dx2-y2 dyz dxz dz2 Free Cr3+ ion dx2-y2 dxy dyz dxz Cr3+ ion in an octahedral crystal field Energy Electronic Excitation dx2-y2 dz2 dx2-y2 dz2 eg D = Crystal Field Splitting Energy light (photon) t2g dxy dyz dxz dxy dyz dxz [Cr3+(H2O)6]3+ Absorption Spectra Antibonding (s*) Metal-Ligand MO’s 0.6 0.5 Absorbance 0.4 Doct 0.3 0.2 Nonbonding Metal d MO’s 0.1 0.0 250 300 350 400 450 500 550 Wavelength (nm) 600 650 700 750