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Iron(III) Ethoxide, also known as Iron(III) isopropoxide, is an organometallic compound with the chemical formula Fe(OCH(CH3)2)3. It is a colorless to pale yellow liquid that is sensitive to air and moisture. Iron(III) Ethoxide is a versatile precursor for the synthesis of various iron oxide materials and nanoparticles, making it a valuable compound in the field of materials science.

5058-42-4

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5058-42-4 Usage

Uses

Used in Sol-Gel Processes:
Iron(III) Ethoxide is used as a precursor for the sol-gel process, a wet-chemical technique used to produce advanced materials with controlled porosity and homogeneity. The sol-gel process involves the transition of a system from a liquid "sol" into a solid "gel" phase, allowing for the creation of thin films, fibers, and other materials with unique properties.
Used in Inorganic Compound Synthesis:
Iron(III) Ethoxide serves as a precursor for the synthesis of inorganic compounds, particularly iron oxide. Iron oxide is a widely used material with applications in various fields, including electronics, energy storage, and catalysis.
Used in Nanoparticle Preparation:
Iron(III) Ethoxide is used in the preparation of iron-platinum nanoparticles through pyrolysis with platinum(II) acetylacetonate. These nanoparticles have potential applications in various industries, such as electronics, energy storage, and catalysis, due to their unique properties and high surface area.

Check Digit Verification of cas no

The CAS Registry Mumber 5058-42-4 includes 7 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 4 digits, 5,0,5 and 8 respectively; the second part has 2 digits, 4 and 2 respectively.
Calculate Digit Verification of CAS Registry Number 5058-42:
(6*5)+(5*0)+(4*5)+(3*8)+(2*4)+(1*2)=84
84 % 10 = 4
So 5058-42-4 is a valid CAS Registry Number.
InChI:InChI=1/3C2H5O.Fe/c3*1-2-3;/h3*2H2,1H3;/q3*-1;+3

5058-42-4 Well-known Company Product Price

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  • Alfa Aesar

  • (41863)  Iron(III) ethoxide, 99.6% (metals basis)   

  • 5058-42-4

  • 0.5g

  • 299.0CNY

  • Detail
  • Alfa Aesar

  • (41863)  Iron(III) ethoxide, 99.6% (metals basis)   

  • 5058-42-4

  • 2g

  • 864.0CNY

  • Detail
  • Alfa Aesar

  • (41863)  Iron(III) ethoxide, 99.6% (metals basis)   

  • 5058-42-4

  • 10g

  • 3148.0CNY

  • Detail
  • Alfa Aesar

  • (41863)  Iron(III) ethoxide, 99.6% (metals basis)   

  • 5058-42-4

  • 50g

  • 11889.0CNY

  • Detail

5058-42-4SDS

SAFETY DATA SHEETS

According to Globally Harmonized System of Classification and Labelling of Chemicals (GHS) - Sixth revised edition

Version: 1.0

Creation Date: Aug 12, 2017

Revision Date: Aug 12, 2017

1.Identification

1.1 GHS Product identifier

Product name ethanolate,iron(3+)

1.2 Other means of identification

Product number -
Other names iron etoxide

1.3 Recommended use of the chemical and restrictions on use

Identified uses For industry use only.
Uses advised against no data available

1.4 Supplier's details

1.5 Emergency phone number

Emergency phone number -
Service hours Monday to Friday, 9am-5pm (Standard time zone: UTC/GMT +8 hours).

More Details:5058-42-4 SDS

5058-42-4Relevant academic research and scientific papers

Simultaneous characterizing study of the metallic iron-organic coordination compounds by TG-DSC-MS coupling techniques

Lu, Chang-Wei,Wang, Qun,Chen, Yun-Xian,Shi, Jian-Lin

, p. 63 - 70 (2003)

In this work, thermogravimetry-differential scanning calorimetry-mass spectrometry (TG-DSC-MS) coupling techniques were used to make a simultaneous characterizing study for the metallic iron-organic coordination compounds formed by iron ions and organic solvent glycol during the sol-gel process of preparing the iron oxide nanometer films. The positive ion mass spectra [Fe(OCH2CH3)3]+(mass to charge (m/z) = 191) and [Fe(OCH2CH2OH)3]+(m/z = 239) of the organic iron coordination compounds were obtained by experimental methods for the first time. Through the comparison analysis with the results of the TG-DSC-MS for the glycol, it can be found that the thermal decomposition temperature for the metallic iron-organic coordination compounds formed with glycol is higher than that of pure glycol. The results in this research work show that the simultaneous TG-DSC-MS coupling techniques can be applied to characterize some of the metallic-organic coordination compounds appeared in the gas state at lower temperature.

Alkoxy metal powder as well as preparation method and application thereof

-

Paragraph 0073-0074, (2019/12/02)

The invention relates to a preparation method and an application of alkoxy metal powder, which are applied to preparation of an alkoxy metal carrier of an olefin polymerization catalyst. The alkoxy metal carrier comprises the following components: metal halide, sodium alcoholate or potassium alcoholate, or a solvent. The molar ratio of the components for preparing the alkoxy metal compound is as follows: metal halide: sodium alcoholate or potassium alcoholate = 1:(0.001-30); wherein the metal halide is a metal chloride, a metal bromide, a metal fluoride or a metal iodide; the metal is a main group metal, a sub-group metal or a VIII group metal. The catalyst prepared from the carrier is used for preparing an olefin polymerization catalyst, and has the advantages of high catalyst activity, good hydrogen regulation performance, good copolymerization performance, low polymer powder content, low wax content and good particle morphology; the catalyst is used for ethylene homopolymerization,ethylene and alpha-olefin copolymerization or ethylene and polar alkene monomer copolymerization, propylene homopolymerization, propylene and alpha-olefin copolymerization, or propylene and polar alkene monomer copolymerization.

New insights into the mechanism of iron-catalyzed cross-coupling reactions

Bekhradnia, Ahmadreza,Norrby, Per-Ola

, p. 3959 - 3962 (2015/04/27)

The mechanism of the iron-catalyzed cross-coupling of alkyl halides with aryl Grignard reagents is studied by a combination of GC monitoring and DFT calculation. Herein, we investigate two possible reaction pathways, the regular oxidative addition (OA) pathway and the atom transfer (AT) pathway that might occur in the rate-limiting step. The computational studies revealed that the AT pathway requires less energy than the regular OA pathway.

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