CAS NO:14024-17-0 Iron(II) Acetylacetonate/Ferrous Acetylacetonate

CAS NO:14024-17-0 Ferrous acetylacetonate
Molecular formula：C10H14FeO4
Molecular weight ：254.06
key characteristics：Ferrous acetylacetonate Used as catalysts in organic synthesis, petrochemical and fuel industries, as well as in the field of new energy.

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Description

Technical Parameters

Product Specification

Product name	Iron(II) acetylacetonate/Ferrous acetylacetonate
CAS NO	14024-17-0
ITEM NO	M14024170
Flash point	71.9°C
Melting point	175°C
Package	100g/1kg/25kg/100kg
Delivery	2-3days
Storage	20-25°C
MSDS/COA	connect us

product-461-461

FAQ

What is the application path of ferrous acetylacetonate in the synthesis of lithium battery electrode materials?

1. Pre-catalyst doping modification
2. Carbon-based anode catalytic pore formation
3. Composite electrode catalytic synthesis

What specific aspects of the dispersion performance of ferrous acetylacetonate in organic solvents are reflected in which process steps?

1. Non-aqueous phase organic synthesis catalytic process
2. Mixing and processing of rubber and plastic products
3. Preparation process of solvent-based coatings / inks
4. Preparation process of metal organic precursor solutions

What are the effects of the decomposition characteristics of ferrous acetylacetonate on the application of the process?

What is the optimal addition ratio of Ferrous acetylacetonate (CAS: 14024-17-0) to acetylpyridine iron in rubber and plastic products?

They are precisely controlled within the range of 0.1% to 2.0%. Low addition amounts focus on heat stability, while high addition amounts also take into account the promotion of vulcanization and antioxidation. When there are no special requirements, the general proportion of 0.3% to 0.8% is preferred.

What are the calcination process requirements for using Ferrous acetylacetonate (CAS: 14024-17-0)as a precursor in the preparation of cathode materials for batteries?

As a precursor for iron-based battery cathode materials, the core calcination process revolves around a three-stage design: low-temperature removal of organic ligands, medium-temperature crystal form reconstruction, and high-temperature crystallization and shaping. It must balance the need for no residual ligand decomposition, precise control of iron valence state, and uniformity of powder particle size/crystal form. Simultaneously, leveraging its low-temperature decomposition characteristic of 175~180℃, calcination energy consumption should be reduced.

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