FT Pulsed and CW EPR Studies of Stable Molecular Spin Crystals
作者:
Daisuke Shiomi,
Kazunobu Sato,
Yoshio Teki,
Takeji Takui,
Koichi Itoh,
Koichi Tanaka,
Fumio Toda,
期刊:
Molecular Crystals and Liquid Crystals Science and Technology. Section A. Molecular Crystals and Liquid Crystals
(Taylor Available online 1995)
卷期:
Volume 271,
issue 1
页码: 173-182
ISSN:1058-725X
年代: 1995
DOI:10.1080/10587259508034050
出版商: Taylor & Francis Group
数据来源: Taylor
摘要:
The potential application of time domain EPR spectroscopy to an organic molecular spin system was examined, particularly focusing upon quantum spin transient nutation phenomena. A nitronyl nitroxide-based biradical with an excited triplet state (S=1),p-phenylenebis(α-nitronylnitroxide), was adopted as a simple model system for studying the nutation spectroscopy which enables us to discriminate between S≥1 andS=½ states. In the low temperature region below 10 K, anS=1 spin of the themally excited biradical molecule and anS=½ spin of an impurity molecule were found to coexist in the crystalline solid state ofp-phenylenebis(α-nitronylnitroxide). Field-swept echo-detected EPR spectra reproduced the cw spectra of the biradical powder. Echo-detected nutation spectra exhibited two distinct maxima of the echo intensity at the nutation frequencies expected forS=1 andS=½ spins, indicating that the biradical solid was identified to be a mixture of theS=1 andS=½ species as expected from the static susceptibility and crystal structure analysis of the biradical. The nutation method based on pulsed EPR spectroscopy was demonstrated to be complementary to conventional cw EPR and susceptibility measurements.
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