PHOTOPHYSICAL BEHAVIOR OF ZINC(II) TETRAPHENYLPORPHYRIN IN HIGHLY CONSTRAINING MICROENVIRONMENTS - ANOMALOUSLY LONG-LIVED EXCITED-TRIPLET IN THE HYDROPHOBIC CLUSTERS OF AMPHIPHILIC POLYSULFONATES

A small amount of zinc(II) tetraphenylporphyrin (ZnTPP) was covalently incorporated into sodium polysulfonates modified with cyclododecyl (C d) (60 mol %) or lauryl (La) (61 mol %) groups. The ZnTPP species are confined within the hydrophobic clusters in the amphiphilic polysulfon ates in aqueous solution. In the Cd cluster, the ZnTPP chromophores ex hibited unusual photophysical behavior, including delayed fluorescence with an anomalous spectral pattern, strongly blue-shifted phosphoresc ence, and extraordinarily long lifetime of the triplet-excited state i n aqueous solution at ordinary temperatures. Temperature dependencies of the delayed emissions and the triplet decays imply that the ZnTPP s pecies are ''pinned down'' to constrained configurations in the Cd dus ter, leading to the unusual photophysical behavior. The highly constra ining microenvironment in the Cd cluster tends to be loosened in the t emperature range 60-80 degrees C, and the pinning down effect vanishes at >90 degrees C. No such unusual photophysical behavior due to highl y constraining space was recognized for the La cluster.