Spin density distribution of the photoexcited triplet state of anthracene via electron spin echo envelope modulation spectroscopy

Electron spin echo spectroscopy has enabled us to identify the non-radiative triplet state of all-trans-dodecapentaenal in stretched polyethylene films. We have obtained transient electron paramagnetic resonance spectra and determined the zero-field splitting parameters: X/h = -933 f 20 MHz. Y/h = -

Electron spin echo envelope modulation (ESEEM) has been stud- imposed (3, 4). Since commercial pulsed EPR spectromeied at zero and low magnetic fields (B °100 G) by means of ters normally operate at X-band frequencies (8-10 GHz), optically detected magnetic resonance. Qualitative differences of the

An cleclron spin echo envelope modulahon lrequency analysis is performed ol the 14N and 15N bacleriochlorophyll a\* canon in sohd solution Hyperfine couphngs of 2 0 and 3.1 MHz arc derived which correspond to the perpendicular component ol Lhe axial hyperfine coupling tensor. Seven quadrupole lreque

Electron spin-echo envelope modulation (ESEEM) spectroscopy is widely used to investigate the active sites of biological molecules in frozen solutions. Various cryoprotection techniques, particularly the addition of co-solvents, are commonly employed in the preparation of such samples. In conjunctio