Abstract

A combination of photoacoustic (PA), photothermal beam deflection (PBD) and fluorimetric spectroscopic measurements has been used to determine fluorescence quantum yields for cresyl violet perchlorate in methanolic and aqueous solutions. A concentration dependence of the fluorescence quantum yield is found to be significant. The same Quanta Ray DCR-2 Nd:YAG laser used in the PA and PBD experiments has been the flash photolysis light source at λ = 355 nm for a rate study of ring closure reactions of Mo(CO)₅L complexes where L is one of several substituted 2,2'-bipyridine chelating ligands. The laser pulse creates the Mo(CO)₅L species from Mo(CO)₆/L dissolved in toluene. The sample liquid is in a compressible quartz pill-box cell housed in a steel autoclave that can be pressurized to 200 MPa. Values of the activation parameters ΔS^# and ΔV^# for the rate determining ring closure reaction are small and negative for two of the 2,2'-bipyridine ligands supporting the concept of an associative interchange mechanism for CO extrusion. For another, bulkier 2,2'-bipyridine type ligand ΔV^# is small and positive suggesting a dissociative interchange mechanism. These results demonstrate a changeover in reaction mechanism with changes in steric hindrance.

© 1992 Optical Society of America