Ammonium Acetate 500g

Description

Ammonium Acetate, available in a 500-gram package, is a white crystalline powder with a wide range of applications in the chemical, analytical, and laboratory industries. Here’s a comprehensive description of Ammonium Acetate:

• Chemical Formula: Ammonium Acetate is represented by the chemical formula CH₃COONH₄, signifying its composition, which includes acetate ions (CH₃COO⁻) and ammonium ions (NH₄⁺).
• Purity and Grade: The product is typically of high purity, suitable for use in various analytical and research applications.
• Physical State: Ammonium Acetate is a crystalline powder that is highly soluble in water. It is odorless and has a mild, acetic acid-like taste.

Key Features:

• Buffering Agent: Ammonium Acetate is widely used as a buffering agent in chemical and biochemical processes to maintain a stable pH environment. Its buffering capacity makes it valuable in various laboratory procedures.
• Analytical Chemistry: It is commonly employed in analytical chemistry techniques, such as mass spectrometry, as an additive to enhance ionization efficiency and improve results.
• Chromatography: In liquid chromatography, Ammonium Acetate can be used as a mobile phase modifier to separate and analyze various compounds.
• Research and Laboratory: It finds application in numerous laboratory experiments and research studies as a reagent or as part of reaction mixtures.

Applications:

• Mass Spectrometry: Ammonium Acetate is frequently used in mass spectrometry for ionization and desorption of analytes.
• Chromatographic Separations: It is employed in liquid chromatography techniques to separate and detect various analytes.
• Chemical Reactions: It can serve as a reactant or reagent in chemical reactions, particularly in organic synthesis.
• Buffering Solutions: In biochemistry and molecular biology, it is utilized to create precise pH conditions in biochemical assays and reactions.

Ammonium Acetate in a 500-gram package is a versatile compound known for its buffering properties and its role in enhancing analytical and research processes. Its ability to maintain a stable pH environment is valuable in a wide range of applications, from analytical chemistry to mass spectrometry. Researchers and scientists rely on its consistent quality and effectiveness in various laboratory procedures and experiments.