A time-resolved EPR investigation on the non-phosphorescent triplet states; 9,10-diazaphenanthrene

The triplet states of C6,, and C,,, (fullerenes) in solid phase at 3 and 77 K are detected by the time-resolved EPR technique. The observed time-resolved EPR spectra and the time profiles of the transient signals indicate that the geometries of Cw and CT0 are distorted from the soccerball geometry (

The properries of 'nz\* pyridtine u'ere investigawd by time-rcsolvsd EPR. The zfs (X = 0.091 cm-'\_ Y = -0.161 cm-'. 2 = 0.071 cm-'), the sublevel decay raw cor~s~~n~s (k. = k-= 2.0~10' 5-l. k,. =1.7x 10' s-') and Ihc relnGvc populaling ra1es (p, : cr : P, = 0.1 : 1 I 0.1) xvere delermined. Th~'lnck

Time-resolved EPR spectra were first observed for the lowest excited triplet state of metallophthalocyanines ( MPc: M = 2Na, Mg, and Zn) in a rigid glassy matrix at 77 K. The zero-field splitting 1 D 1 parameters are smaller compared with those of metalloporphyrins. Introduction of the Zn atom to PC

Time-resolved EPR spectra have been observed for the lowest triplet states of biphenyl, 4-phenylpyridine (PPY) and Cphenylpyridinium (PPYH+ ) in ethanol at 77 K The sublevel preferentially populated by intersystem crossing is T, (top sublevel) in biphenyl. Following the protonation of PPY, (P,,) /(

Nanosecond time-resolved resonance Raman spectra of the T 1 states and Raman spectra of the S 0 states of 1bromonaphthalene and 1,4-dibromonaphthalene were measured. Ab initio calculations were also performed to determine the optimized geometries and vibrational spectra for the S 0 and T 1 states of