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Chemicals, plastics and rubber industries

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Electron spin relaxation rates for high-spin Fe(III) in iron transferin carbonate and iron transferin oxalate

Article Abstract:

A study was conducted to analyze the electron spin relaxation rates for high-spin Fe(III)in iron transferrin carbonate and iron transferin oxalate. T1 and Tm were measured for the high-spin Fe(III) in iron transferin carbonate and iron transferin oxalate between 5 and 20-30 K by employing electron spin echo and inversion recovery electron paramagnetic resonance to gather direct data on the electron spin relaxation rates. The results are discussed.

Author: Eaton, Sandra S., Eaton, Gareth R., Gaffney, Betty Jean
Publisher: American Chemical Society
Publication Name: Journal of Physical Chemistry B
Subject: Chemicals, plastics and rubber industries
ISSN: 1520-6106
Year: 1998
Transferrin

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Electron spin relaxation in x-lithium phthalocyanine

Article Abstract:

The studies related to the spin-lattice and spin-spin relaxation rates as a function of temperature at both the X-band and Q-band which provide greater insight into the relaxation mechanisms and properties of lithium phthalocyanine (LiPc) is presented.

Author: Eaton, Sandra S., Eaton, Gareth R., Sato, Hideo, Dalton, Lauraine A., Ha, Duc, Quine, Richard W.
Publisher: American Chemical Society
Publication Name: Journal of Physical Chemistry B
Subject: Chemicals, plastics and rubber industries
ISSN: 1520-6106
Year: 2007
All Other Basic Inorganic Chemical Manufacturing, Industrial Organic Chemicals, Cyclic Crude and Intermediate Manufacturing, Industrial inorganic chemicals, not elsewhere classified, Lithium Compounds, Phthalocyanine, Lattice theory, Phthalocyanins, Electron paramagnetic resonance, Structure, Chemical properties

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Frequency dependence of electron spin relaxation of nitroxyl radicals in fluid solution

Article Abstract:

Electron spin lattice relaxation rates (1/T1e) of nitroxyl radicals were measured by saturation recovery at X-band, S-band and L-band. Further studies are required to understand the relevant motions of nitroxyls with different structures.

Author: Owenius, Rikard, Terry, Garth E., Williams, Mitchell J., Eaton, Sandra S., Eaton, Gareth R.
Publisher: American Chemical Society
Publication Name: Journal of Physical Chemistry B
Subject: Chemicals, plastics and rubber industries
ISSN: 1520-6106
Year: 2004
Science & research, Research, Chemistry, Physical and theoretical, Physical chemistry, Radicals (Chemistry), Relaxation phenomena, Relaxation (Physics), Electron spin

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Subjects list: Analysis
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