Results 211 to 220 of about 35,947 (259)
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The nitrosyl compounds of ferrous animal haloperoxidases
Biochimica et Biophysica Acta (BBA) - Protein Structure and Molecular Enzymology, 1984Human myeloperoxidase, human eosinophil peroxidase and bovine lactoperoxidase (donor: hydrogen-peroxide oxidoreductase, EC 1.11.1.7) reduced with ascorbic acid form nitrosyl compounds which show rhombic EPR signals centered at g = 2. Using 14NO (IN = 1), the central resonance signal exhibited a hyperfine structure of nine lines originating from a ...
B G, Bolscher, R, Wever
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A Superoxo-Ferrous State in a Reduced Oxy-Ferrous Hemoprotein and Model Compounds
Journal of the American Chemical Society, 2003Cryoreduction of the [FeO2]6 (n = 6 is the number of electrons in 3d orbitals on Fe and pi* orbitals on O2) dioxygen-bound ferroheme through irradiation at 77 K generates an [FeO2]7 reduced oxy-heme. Numerous investigations have examined [FeO2]7 centers that have been characterized as peroxo-ferric centers, denoted [FeO2]per7, in which a ferriheme ...
Roman, Davydov +5 more
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The nitrosyl compound of ferrous lactoperoxidase
Biochimica et Biophysica Acta (BBA) - Protein Structure and Molecular Enzymology, 1984Abstract The nitrosyl compound of reduced bovine lactoperoxidase (donor:hydrogen-peroxide oxidoreductase, EC 1.11.1.7) has been prepared using two methods of initial reduction prior to exposure to NO; namely, dithionite and electrochemical reduction.
Gunnel Sievers +3 more
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Evidence of critical superparamagnetism in a ferrous compound
Physics Letters A, 1974Abstract In the Mossbauer spectra of antiferromagnetic ferrous α-Fe SO4 we observe critical superparamagnetism. The effect is indicated by the coexistence of relatively narrow hyperfine-split and paramagnetic spectra as well as a pronounced relaxational quadrupole-doublet asymmetry.
H.L. Wehner, G. Ritter, H.H.F. Wegener
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Paramagnetic relaxation in high-spin ferrous compounds
Hyperfine Interactions, 1986Measurements of three high-spin FeIIS4 complexes at various temperatures and applied magnetic fields are reported and the results are compared with those of reduced rubredoxin. Simulations of the measured spectra by means of the fully developed stochastic theory of lineshape prove that intermediate relaxation behavior is present and is determined ...
H. Winkler +4 more
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Organic Compounds in Ferrous Foundry Process Waste Leachates
Journal of Environmental Engineering, 1993An investigation is conducted to determine the potential for and extent of ground‐water contamination by organic matter arising from ferrous foundry solid‐waste landfills. In the laboratory, the Environmental Protection Agency's (EPA's) toxicity characteristic leaching procedure (TCLP) is used on waste samples representing nine common binder systems to
R. K. Ham +3 more
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Muffin-Tin Radii and Hyperfine Interactions in Ferrous Compounds
AIP Conference Proceedings, 1973The hyperfine interactions in octahedral iron compounds are discussed in terms of the effective volumes available for the Fe2+ ion in the lattice, as defined by a touching non‐overlapping muffin‐tin model. The data indicate 〈r−3(t2g)〉 ∞ 〈r〉−3 varying by a factor of 3:1 over the covalency range between FeF2 and FeS.
Y. Hazony +3 more
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Corrosion of Ferrous Alloys by Organic Compounds in Simulated Bio-Oils
CORROSION 2019, 2019Absrract Bio-oils derived from biomass contain organic species and acids that can be corrosive to steel-based structural materials used for pipelines and storage tanks. It is, therefore, important to assess corrosivity of organic constituents in bio-oils and identify ferrous alloys with sufficient corrosion resistance.
Jiheon Jun +5 more
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Effect of Pressure on the Spin State of Iron in Ferrous Phenanthroline Compounds
The Journal of Chemical Physics, 1971The effect of pressure to 175 kbar has been measured on the spin state of Fe(II) in bis- and trisphenanthroline complexes, using Mössbauer resonance and optical absorption. The bis complexes can be classified according to the degree of back bonding to the nonphenanthroline ligands. Compounds with halide ligands are high spin at low pressure.
D. C. Fisher, H. G. Drickamer
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