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Iron-reducing bacteria decompose lignin by electron transfer from soil organic matter
Merino C., Kuzyakov Y., Godoy K., Jofré I., Nájera F., Matus F.
and fascinating issue. We hypothesized that bacteria reducing Fe(III) (oxyhydr)oxides to soluble Fe(II) obtain
Fundamental insight into pyrolysis and oxidation process of ferric (III) stearate
Zinnatullin Almaz Linarovich, Yuan Chengdong, Emelianov Dmitry Anatolevich, Varfolomeev Mikhail Alekseevich, Vagizov Farit Gabdulhakovich
; and ferric (III) stearate - Fe3O4. At 300-350 ?C, iron (II) oxide (FeO) is formed with a complete
Degradation processes in the cellulose/N-methylmorpholine-N-oxide system studied by HPLC and ESR. Radical formation/recombination kinetics under UV photolysis at 77 K
Konkin A., Wendler F., Meister F., Roth H., Aganov A., Ambacher O.
/NMMO solutions and additional ingredients, e.g., Fe(II) and propyl gallate. HPLC measurements showed
An X- and Q-band Fe3+ EPR Study of Nanoparticles of Magnetic Semiconductor Zn1-xFexO
Misra S., Andronenko Sergej Ivanovich, Thurber A., Punnoose A., Nalepa A.
An X- and Q-band Fe3+ EPR Study of Nanoparticles of Magnetic Semiconductor Zn1-xFexO
Effect of the B-site cation in Gdbo3 (B = fe, Mn, Co) perovskite-type oxides on catalytic performances for syngas production
Kryuchkova T., Sheshko T., Zimina V., Kurilkin V., Serov Y., Zvereva I., Yafarova L.
-type complex oxides GdBO3 (B = Fe, Mn, Co) applied as catalysts for syngas production via dry reforming
Corrosion Behavior of Modified Anodic Oxide Coatings on AD31 Aluminium Alloy
Osipenko, M. A., Kharitonov, D. S., Makarova, I. V., Romanovsky, V. I., Kurilo, I. I.
The dependences of the protective properties of the anodic oxide coatings on the AD31 aluminum
Tri- and tetranuclear heteropivalate complexes with core {Fe2NixO} (x = 1, 2): Synthesis, structure, magnetic and thermal properties
Lutsenko I., Kiskin M., Nelyubina Y., Efimov N., Maksimov Y., Imshennik V., Zueva E., Goloveshkin A., Khoroshilov A., Rentschler E., Sidorov A., Eremenko I.
) and [Fe2Ni2(OH)2(Piv)8(bpy)2] (4), depending on the crystallization conditions. According to single
Controllable Design of Polypyrrole-Iron Oxide Nanocoral Architectures for Supercapacitors with Ultrahigh Cycling Stability
Xu C., Puente-Santiago A.R., Rodríguez-Padrón D., Caballero A., Balu A.M., Romero A.A., Muñoz-Batista M.J., Luque R.
features was achieved by controlling the (C+N)/Fe ratio on the surface, strongly dependent on reaction
Colloidal FeIII, MnIII, CoIII and CuII Hydroxides Stabilized by Starch as Catalysts of Water Oxidation Reaction with One Electron Oxidant Ru(bpy)33+
Chikuniv, A. S., Taran, O. P., Pyshnaya, I. A., Parmon, V. N.
Colloidal FeIII, MnIII, CoIII and CuII Hydroxides Stabilized by Starch as Catalysts of Water
Electrochemical behavior of the monomeric and polymeric forms of N-phenyl-3-(phenylimino)-3H-phenothiazin-7-amine
Kuzin Y.I., Padnya P.L., Stoikov I.I., Gorbatchuk V.V., Stoikov D.I., Khadieva A.I., Evtugyn G.A.
-reversible electron transfer complicated with adsorption of oxidized form. The transfer coefficient and standard

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