Atomfair Cobalt dihydroxide CoH4O2

Description Cobalt Dihydroxide (CoH4O2) is a high-purity inorganic compound widely utilized in advanced research and industrial applications. This compound, also known as cobalt(II) hydroxide, appears as a pink to rose-red crystalline powder and is highly valued for its catalytic and electrochemical properties. With a CAS number of 21041-93-0, our Cobalt Dihydroxide is synthesized under stringent quality controls to ensure consistency and reliability for laboratory and production use. Ideal for battery research, catalysis, and material science, this product is available in various grades to meet specific experimental requirements. Each batch undergoes rigorous analytical testing, including XRD and ICP-MS, to verify purity…

Description

Cobalt Dihydroxide (CoH₄O₂) is a high-purity inorganic compound widely utilized in advanced research and industrial applications. This compound, also known as cobalt(II) hydroxide, appears as a pink to rose-red crystalline powder and is highly valued for its catalytic and electrochemical properties. With a CAS number of 21041-93-0, our Cobalt Dihydroxide is synthesized under stringent quality controls to ensure consistency and reliability for laboratory and production use. Ideal for battery research, catalysis, and material science, this product is available in various grades to meet specific experimental requirements. Each batch undergoes rigorous analytical testing, including XRD and ICP-MS, to verify purity and structural integrity.

CAS No: 21041-93-0
Molecular Formula: CoH4O2
Molecular Weight: 94.964
Exact Mass: 94.954323
Monoisotopic Mass: 94.954323
IUPAC Name: cobalt;dihydrate
SMILES: O.O.[Co]
Synonyms: cobalt(ii)hydroxide, MFCD00016015, Cobalt dihydroxide, Cobalt(iii)hydroxide, COBALTDIOL

Application

Cobalt Dihydroxide is primarily used as a precursor in the synthesis of cobalt-based catalysts for industrial processes such as Fischer-Tropsch synthesis and hydrodesulfurization. In the energy sector, it serves as a key component in the development of advanced electrodes for lithium-ion and nickel-metal hydride batteries. Researchers also employ this compound in the fabrication of magnetic materials and as a pigment in ceramics and glass manufacturing.

If you are interested or have any questions, please contact us at support@atomfair.com