|Appearance||White needle crystal|
|Main content %||≥ 99%|
|Loss on heating %||≤0.5|
|Packing||In 25KG fiber drum or as per customer’s requirement|
|Storage||In dry clean and ventilated place ,avoid direct sun-light.|
|Shipping||In room temperature|
|CAS No.||1068-57-1||Boiling Point (℃)||246.0±9.0|
|Molecular Weight||74.08||Melting Point (℃)||58-68|
|Appearance||White needle crystal||Bulk density (g/cm3)||1.0±0.1|
|HS Code||2928000090||Refractive index||1.432|
Acethydrazide, also known as acetohydrazide, is a chemical compound with the molecular formula C2H6N2O. It is an organic compound that contains a hydrazine functional group (-NHNH2) and an acetyl group (-C(O)CH3) attached to a nitrogen atom.
Acethydrazide finds applications in various fields, including organic synthesis and pharmaceutical research. Here are a few examples of its uses:
1. Pharmaceutical research: Acethydrazide and its derivatives have been investigated for their potential pharmacological activities. They have shown antimicrobial, antiviral, antifungal, and antitubercular properties in some studies. These compounds are often used as building blocks in the synthesis of potential drug candidates.
2. Organic synthesis: Acethydrazide is a versatile reagent for organic synthesis. It can undergo various chemical reactions to produce a wide range of compounds. For example, it can react with aldehydes or ketones to form hydrazones, which are useful intermediates in the synthesis of pharmaceuticals, dyes, and other organic compounds. Acethydrazide can also be utilized in the synthesis of heterocyclic compounds.
3. Coordination chemistry: Acethydrazide can serve as a ligand in coordination chemistry. Its nitrogen and oxygen atoms can coordinate with metal ions, forming complexes with different properties. These complexes have been studied for their catalytic, magnetic, and biological activities. Acethydrazide-based metal complexes have shown potential as catalysts in various organic transformations.
4. Polymer chemistry: Acethydrazide can be used as a monomer in polymer synthesis. It can undergo polymerization reactions to form polymers with hydrazide functional groups along the polymer chain. These polymers can be further modified or crosslinked to obtain materials with specific properties, such as hydrogels or drug delivery systems.