Solvent effects on optically detected magnetic resonance in triplet spin labels

Nuclear quadrupole effects on the tnplet-state opircally detected magnetic resonance (ODMR) of molecules having spin I = 1 nuclei have been investigated by theoreucal melhods Beginning W&I an exact dlagonaluanon of the tnpler-state spin Harrultoman, rhese methods have mvolved a systemauc vanallon m

A zero field magnetic resonance spectrometer capable of investigating triplet states undergoing physical or chemicai processes in tens of nanoseconds is described. The spectrometer emplo] s pulsed laser exitation and time-resolved phosphorcscence detection. together with very high power (1 I&Q micro

Polarization measurements of optinlly detected electron spin resonance nr zero field using an external antenna to transmit linexly polarized microwave power are described.

UPon excitation of a single crystal of CSO in the visible, microwave transitions have been detected optically in zero field. The transitions derive from triplet states and their frequencies verify that these states are delocalized over more than one C6,, molecule, as Previously inferred from EPR exp