Acetonitrile (HPLC grade) and manganese(IV) oxide (99%) were purchased from Fisher Scientific. Sodium sulfite, manganese(II) chloride, copper(II) chloride, and iron(III) chloride (all analysis grade) were purchased from Prolabo. Benzyl alcohol (99%), benzaldehyde (98%), iron powder 352 mesh (99%), sulfuric acid (96% in water), and potassium permanganate (98%) were procured from Acros. Iron(III) oxide (99.998%), iron(II, III) oxide (97%), iron(II) oxide (99.5%), manganese(II) oxide (99%), and manganese(II) titanium oxide (99.9%) were procured from Alfa Aesar. Copper(II) chloride (≥98%) and copper(II) sulfate (≥98%) came from Roth. Cobalt iron oxide (99%) was obtained from Aldrich. Benzoic acid (>99.5%), copper powder (grain size > 63 µm), and soda lime (both analysis grade) were obtained from Merck. Ultra-high-quality (UHQ) water obtained from Elga Maxima system was used for the experiments.
Iron 2 oxide
Manufactured by Thermo Fisher Scientific
Iron(II) oxide is a chemical compound consisting of one iron atom and one oxygen atom. It is a dark-colored, crystalline solid with the molecular formula FeO. The primary function of Iron(II) oxide is as a raw material for the production of other iron compounds and in the manufacture of various products.
Automatically generated - may contain errors
Lab products found in correlation
Benzaldehyde, by Thermo Fisher Scientific (1 mentions)
Benzyl alcohol, by Thermo Fisher Scientific (1 mentions)
Sulfuric acid, by Thermo Fisher Scientific (1 mentions)
Potassium permanganate, by Thermo Fisher Scientific (1 mentions)
Benzoic acid, by Merck Group (1 mentions)
Copper powder, by Merck Group (1 mentions)
Copper 2 sulfate, by Carl Roth (1 mentions)
Hplc grade acetonitrile, by Thermo Fisher Scientific (1 mentions)
2 protocols using iron 2 oxide
1
Synthesis of Metal Oxides for Catalysis
2
Solid-State Synthesis of LiFeBO3
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A simple process was chosen to synthesize LiFeBO 3 through a conventional solid-state reaction at room temperature. Therefore, iron(II)oxide (FeO Aldrich 99.9 %) was ball milled with a slight excess of 10 wt% lithium meta borate LiBO 2 (Alfa Aesar 99.9%) together with 20 wt% conductive carbon black agent C-nergy Super C65 (Imerys Graphite & Carbon) for 15 h using a Fritsch P6 planetary ball mill with 80 mL silicon nitride vial and silicon nitride balls, at a ball to powder ratio of 15:1. After ball milling, the product powder was transferred into a corundum crucible and was sintered at 600 °C for 1h under Ar flow. Prolonged exposure to heat led to a rise of the Fe 3 BO 5 content which was an impurity in the product. All steps were carried out under moisture and air-free conditions which was of utmost importance.
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