GF03889503
Iron
foil, light tested, 100x100mm, thickness 0.015mm, 99.85%
Sinónimos:
Iron, FE000170
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About This Item
Fórmula lineal:
Fe
Número de CAS:
Peso molecular:
55.85
MDL number:
UNSPSC Code:
12141721
PubChem Substance ID:
NACRES:
NA.23
Productos recomendados
assay
99.85%
form
foil
manufacturer/tradename
Goodfellow 038-895-03
resistivity
9.71 μΩ-cm
L × W × thickness
100 mm × 100 mm × 0.015 mm
bp
2750 °C (lit.)
mp
1535 °C (lit.)
density
7.86 g/mL at 25 °C (lit.)
SMILES string
[Fe]
InChI
1S/Fe
InChI key
XEEYBQQBJWHFJM-UHFFFAOYSA-N
General description
For updated SDS information please visit www.goodfellow.com.
Legal Information
Product of Goodfellow
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Qiu et al.
Physical review letters, 85(7), 1492-1495 (2000-09-06)
FeF (2) films are grown by the reaction of XeF (2) and SeF (6) with iron foil. The growth initially follows the Mott-Cabrera parabolic rate law, indicating that the process is diffusion limited. At a certain film thickness, however, the
Jun-Won Jang et al.
Water science and technology : a journal of the International Association on Water Pollution Research, 59(12), 2503-2507 (2009-06-23)
Zero valent iron has been successfully used for the degradation of a wide range of contaminants. However, this reaction of using ZVI particle produces a large quantity of iron sludge. To solve the problem, we report the synthesis of self-organized
Arnold L Demain et al.
Applied microbiology and biotechnology, 73(1), 55-59 (2006-04-20)
When tetanus toxin is made by fermentation with Clostridium tetani, the traditional source of iron is an insoluble preparation called reduced iron powder. This material removes oxygen from the system by forming FeO(2) (rust). When inoculated in a newly developed
50 years ago in the Journal of Pediatrics: Iron metabolism in premature infants: II. Prevention of iron deficiency.
Pamela J Kling
The Journal of pediatrics, 164(4), 768-768 (2014-03-22)
Laura M van Staalduinen et al.
Proceedings of the National Academy of Sciences of the United States of America, 111(14), 5171-5176 (2014-04-08)
The enzymes PhnY and PhnZ comprise an oxidative catabolic pathway that enables marine bacteria to use 2-aminoethylphosphonic acid as a source of inorganic phosphate. PhnZ is notable for catalyzing the oxidative cleavage of a carbon-phosphorus bond using Fe(II) and dioxygen
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