Exceptionally variable solvatochromism of centrosymmetric octacarbonyldimolybdenum(0) complexes. Rules to estimate the solvent sensitivity of charge-transfer absorption energies. Inorganic Chemistry, (25)18:3306--3310, 1986. [PUMA: carbonyl complex molybdenum solvatochromism]
Specific solvatochromism of the prototypical olefin complexes (h2-TCNE)M(CO)5 (M = chromium, tungsten) resulting from n and p donation of aprotic solvents toward the p-acceptor ligand. Organometallics, (10)2:410--415, 1991. [PUMA: carbonyl chromium solvatochromism tetracyanoethylene tungsten]
Qualitatively and quantitatively different solvatochromism of the MLCT and MMCT absorption bands of centrosymmetric acceptor-bridged diiron(II,II) and diiron(III,II) cyanide complexes. Inorganica Chimica Acta, (336):55--60, 2002. [PUMA: absorption charge complex cyano iron mixed solvatochromism transfer valence]
Correlation between solvatochromism and back-bonding in four isomeric (a-diimine)M(CO)4 complexes (M = Cr, Mo, W). Journal of Organometallic Chemistry, (302)2:211--215, 1986. [PUMA: backbonding backbonding;bipyrimidine backbonding;biyridazine backbonding;chromium backbonding;molybdenum backbonding;tungsten bipyrazine complex diimine metal solvatochromism]
What determines the solvatochromism of metal-to-ligand charge transfer transitions? A demonstration involving 17 tungsten carbonyl complexes. Journal of Organometallic Chemistry, (321)2:215--226, 1987. [PUMA: charge ligand metal solvatochromism transfer]