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  • CAS 593-51-1 99% Monomethylamine Hydrochloride
  • CAS 593-51-1 99% Monomethylamine Hydrochloride
  • Factory supply  CAS 593-51-1 99% Monomethylamine Hydrochloride
  • Factory supply  CAS 593-51-1 99% Monomethylamine Hydrochloride
  • Factory supply  CAS 593-51-1 99% Monomethylamine Hydrochloride
  • Factory supply  CAS 593-51-1 99% Monomethylamine Hydrochloride
  • Factory supply  CAS 593-51-1 99% Monomethylamine Hydrochloride
  • Factory supply  CAS 593-51-1 99% Monomethylamine Hydrochloride
  • CAS 593-51-1 99% Monomethylamine Hydrochloride
  • CAS 593-51-1 99% Monomethylamine Hydrochloride
  • Factory supply  CAS 593-51-1 99% Monomethylamine Hydrochloride
  • Factory supply  CAS 593-51-1 99% Monomethylamine Hydrochloride
  • Factory supply  CAS 593-51-1 99% Monomethylamine Hydrochloride
  • Factory supply  CAS 593-51-1 99% Monomethylamine Hydrochloride
  • Factory supply  CAS 593-51-1 99% Monomethylamine Hydrochloride
  • Factory supply  CAS 593-51-1 99% Monomethylamine Hydrochloride

Factory supply CAS 593-51-1 99% Monomethylamine Hydrochloride

No.FH-M1817
99% Monomethylamine Hydrochloride
Appearance: White crystalline powder

CAS NO.: 593-51-1
BP/EP/USP Standard
$29.60
MOQ:
1KG
Free sample:
Available
  • CAS 593-51-1 99% Monomethylamine Hydrochloride
  • CAS 593-51-1 99% Monomethylamine Hydrochloride
  • Factory supply  CAS 593-51-1 99% Monomethylamine Hydrochloride
  • Factory supply  CAS 593-51-1 99% Monomethylamine Hydrochloride
  • Factory supply  CAS 593-51-1 99% Monomethylamine Hydrochloride
  • Factory supply  CAS 593-51-1 99% Monomethylamine Hydrochloride
  • Factory supply  CAS 593-51-1 99% Monomethylamine Hydrochloride
  • Factory supply  CAS 593-51-1 99% Monomethylamine Hydrochloride

Description

Monomethylamine Hydrochloride

Monomethylamine hydrochloride CAS 593-51-1 commonly abbreviated as MMAH, is a versatile chemical compound with a wide range of applications across multiple industries. Its chemical formula, CH₃NH₂·HCl, signifies a hydrochloric acid salt of monomethylamine, offering unique properties that make it indispensable in various processes. This guide aims to provide a comprehensive understanding of Monomethylamine hydrochloride, highlighting its characteristics, applications, production methods, safety considerations, relevance.

Physical Properties

  • Molecular Weight: 67.52 g/mol
  • Appearance: White crystalline solid
  • Solubility: Soluble in water, methanol, and ethanol
  • Melting Point: Approximately 170-174°C
  • Density: Slightly greater than water

Chemical Properties

  • Stability: Stable under normal conditions but may decompose at high temperatures or in the presence bases.
  • Reactivity: Reacts with acids to release monomethylamine (MMA) and hydrochloric acid (HCl).
  • pH: Acidic due to the hydrochloric acid component.

Applications

Agricultural Chemicals

Monomethylamine hydrochloride CAS 593-51-1 serves as a key intermediate in the synthesis of agrochemicals, particularly herbicides and pesticides. Its ability to modify plant growth and control pests makes it a valuable component in agricultural formulations.

Pharmaceutical Industry

In the pharmaceutical sector, MMAH finds application as a raw material for the production of drugs targeting various health conditions. Its reactive nature allows for the synthesis of specific molecules required in medicinal chemistry.

Dye and Pigment Manufacturing

The dye and pigment industry utilizes MMAH to enhance the coloration process. It acts as a catalyst or modifier, ensuring improved color fastness, brightness, and durability of dyes and pigments used in textiles, plastics, and paints.

Water Treatment

Due to its ability to complex with metals, Monomethylamine hydrochloride is employed in water treatment processes to remove heavy metals and other contaminants, contributing to cleaner and safer water supplies.

Other Applications

Beyond the aforementioned sectors, MMAH also finds use in rubber processing, plasticizers, and as a component in various chemical reactions where its specific properties are leveraged.

Production Methods

Chemical Synthesis

The most common method of producing Monomethylamine hydrochloride involves the reaction of methanol with ammonia in the presence catalyst, followed by acidification with hydrochloric acid. This process ensures high purity and yield, making it suitable for industrial-scale production.

Extraction and Purification

Post-synthesis, the crude product undergoes rigorous purification steps to remove impurities, resulting in a high-quality Monomethylamine hydrochloride suitable for various applications.

Safety Considerations

Handling

Monomethylamine hydrochloride should be handled with appropriate personal protective equipment (PPE), including chemical-resistant gloves, goggles, and respiratory protection. Avoid direct contact with skin, eyes, and ingestion.

Storage

Store in a cool, dry, well-ventilated area, away from sources of ignition and incompatible materials. Ensure proper labeling and segregation of chemicals to prevent accidental mixing.

Disposal

Dispose of waste according to local regulations and guidelines. Consult with environmental health and safety experts for proper disposal methods to minimize environmental impact.

Market Relevance

The global demand for Monomethylamine hydrochloride growing steadily, driven by its diverse applications across various industries. Innovations in agrochemicals, pharmaceuticals, and water treatment technologies are expected to propel further growth in the market. As industries continue to explore new uses for this versatile compound, the market for Monomethylamine hydrochloride promises exciting opportunities for both suppliers and buyers.Water Soluble Food Grade Chitosan HydrochlorideWater Soluble Food Grade Chitosan HydrochlorideWater Soluble Food Grade Chitosan HydrochlorideWater Soluble Food Grade Chitosan Hydrochloride

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