Hydroxylammonium acetate - Names and Identifiers
Hydroxylammonium acetate - Physico-chemical Properties
Molecular Formula | C2H7NO3
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Molar Mass | 93.08188 |
Hydroxylammonium acetate - Upstream Downstream Industry
Hydroxylammonium acetate - Introduction
Aetic acid hydroxyammonium salt, also known as hydroxylamine acetate, is an inorganic salt with the chemical formula CH3COONH2OH. Its nature, use, formulation and safety information are described below:
1 properties: Acetic acid hydroxyammonium salt is a colorless or white crystalline solid, with the characteristics of acetic acid and hydroxylamine. It is soluble in water, slightly soluble in alcohol and ether solvents. It decomposes at high temperatures, giving off ammonia and formic acid.
2. use: Acetic acid hydroxyammonium salt is mainly used in metal surface treatment, printing and dyeing industry, pharmaceutical and organic synthesis and other fields. In metal surface treatment, it can be used as a metal corrosion inhibitor and solvent to prevent oxidation and corrosion of the metal surface. In the printing and dyeing industry, it can be used as a reducing agent and a stabilizer for dyes. In addition, Aetic acid hydroxyammonium salt can also be used for the preparation of pharmaceutical intermediates and the synthesis of amino acids and other organic compounds.
3. preparation method: acetic acid hydroxyammonium salt can be prepared by the following steps: firstly, hydroxylamine is dissolved in water, then acetic acid is added, stirred until completely dissolved, and then crystallized to obtain the crystalline solid of acetic acid hydroxyammonium salt.
4. Safety information: Acetic acid hydroxyammonium salt is relatively safe under regular use, but some safety measures still need to be paid attention. Rinse immediately with water when in contact with skin and eyes. Avoid inhaling dust or vapors during operation and wear appropriate protective equipment such as goggles, masks and gloves when necessary. During storage and handling, avoid contact with chemicals such as oxidants, strong acids and strong bases to avoid dangerous reactions.
Last Update:2024-04-09 02:00:50