Effects of High Magnetic Field on the Intramolecular Exciplex Fluorescence of Chain-Linked Phenanthrene and Dimethylaniline

The effect of a high magnetic field ( < 14 T) on the intramolecular exciplex fluorescence generated from a phenanthrene and dimethylaniline chain-linked molecule is studied in acetonitrile. On increasing the magnetic field from zero to = 1 T, the fluorescence decay rate decreases steeply and then in

It is observed that the lanthanide acetylacetonates (Ln( acac) ,) quench the magnetic field effect of pyrene-dimethylaniline exciplex luminescence. The quenching rate constants (Q) for the different Ln 3+ ions follow the same trend as was previously observed in the photolysis of quinones and ketones

The external magnetic field effects on the exciplex fluorescence of a-( 4-dimethylaminophenyI)-o-( 9-phenanthryl)alkanes have been studied by photostationary, time-resolved, and magnetic field modulation fluorescence spectroscopy. The singlet-triplet degeneracy of the radical ion pair is suggested t

The magnetic field effect on the intramolecular hydrogen abstraction of a-(xanthone-2-carbonyloxy)-w-(xanthene-2-carbonyloxy)alkanes (X0-n-XH, n=2-12), in bichromophoric compounds, was studied using laser flash photolysis. Excited triplet X0 abstracts a hydrogen atom from the XH moiety, generating a