Ethanamine, N-methyl- is a chemical compound that holds relevance to everyday life due to its usage in various pharmaceuticals and industrial processes. It is commonly employed in the production of drugs such as pain relievers and antidepressants, highlighting its significance in the healthcare sector. Additionally, this compound plays a role in manufacturing pesticides and herbicides, contributing to agricultural practices. Therefore, the presence of Ethanamine, N-methyl- impacts various aspects of daily life, from medicine to farming.
Table of Contents:
- 💡 Commercial Applications
- ⚗️ Chemical & Physical Properties
- 🏭 Production & Procurement
- ⚠️ Safety Considerations
- 🔬 Potential Research Directions
- 🧪 Related Compounds
💡 Commercial Applications
Ethanamine, N-methyl- is commonly used in commercial and industrial applications as a solvent for various substances due to its ability to dissolve a wide range of organic compounds. It is also utilized in the manufacture of pharmaceuticals, pesticides, and plastics. Additionally, it is used in the production of certain dyes and pigments.
In terms of drug and medication applications, Ethanamine, N-methyl- is sometimes used as an intermediate in the synthesis of pharmaceutical compounds. It can also be found in some over-the-counter and prescription medications as a stabilizing agent or excipient. However, its use in medicinal products is limited compared to other chemicals due to its potential for toxicity.
Despite its limited use in drug formulations, Ethanamine, N-methyl- is a valuable chemical in various industrial processes. Its versatility as a solvent and intermediate compound makes it an essential component in the production of a wide range of products, from pharmaceuticals to plastics. Its commercial and industrial applications highlight its importance in the chemical industry.
⚗️ Chemical & Physical Properties
Ethanamine, N-methyl-, commonly known as methylamine, is a colorless gas with a fishy odor. It possesses a pungent aroma which can be easily detected even at low concentrations.
The molar mass of N-methyl-ethanamine is approximately 31 g/mol, with a density of 0.73 g/cm³. This places it in a similar range to common food items such as water (molar mass of 18 g/mol, density of 1 g/cm³) and sugar (molar mass of 342 g/mol, density of 1.59 g/cm³).
N-methyl-ethanamine has a melting point of -93.6°C and a boiling point of -6.3°C. These temperatures are notably lower than those of common food items such as butter (melting point of 32-35°C, boiling point of 150-200°C) and chocolate (melting point of 34-38°C, boiling point above 100°C).
N-methyl-ethanamine is highly soluble in water and possesses a low viscosity. This contrasts with common food items like oil (low solubility in water, high viscosity) and vinegar (high solubility in water, low viscosity).
🏭 Production & Procurement
Ethanamine, N-methyl is primarily produced through the chemical reaction between ethylene diamine and methyl iodide. This reaction results in the formation of the desired compound, which is then typically purified through processes such as distillation or crystallization to ensure a high level of purity.
Ethanamine, N-methyl can be procured through chemical suppliers who specialize in the sale of fine chemicals and specialty compounds. Due to its classification as a controlled substance in some regions, buyers may need to provide proof of intended use and comply with legal regulations when purchasing this compound. Once procured, Ethanamine, N-methyl can be transported in sealed containers to prevent leakage or contamination during transit.
The transportation of Ethanamine, N-methyl should be carried out in accordance with regulations pertaining to the shipment of hazardous chemicals. This may include using protective packaging, labeling the containers appropriately, and adhering to guidelines for handling and storing the compound. It is essential for transporters to be aware of the potential risks associated with this compound and take necessary precautions to ensure safe delivery to the intended destination.
⚠️ Safety Considerations
Safety considerations for Ethanamine, N-methyl- include its potential hazards to human health and the environment. It is important to handle this chemical with caution as it may cause skin irritation, eye irritation, and respiratory irritation upon inhalation. Prolonged or repeated exposure to Ethanamine, N-methyl- may result in serious health effects, and therefore, appropriate personal protective equipment should be worn when handling this substance. Additionally, proper ventilation should be ensured to minimize the risk of inhalation exposure.
Hazard statements for Ethanamine, N-methyl- include its classification as a skin irritant, eye irritant, and respiratory irritant. It may also be harmful if swallowed, inhaled, or absorbed through the skin. This chemical has the potential to cause serious health effects and should be handled with care to prevent any adverse consequences. It is essential to follow recommended safety guidelines and procedures when working with Ethanamine, N-methyl- to minimize the risk of exposure and harm.
Precautionary statements for Ethanamine, N-methyl- include wearing appropriate personal protective equipment, such as gloves, goggles, and a face mask, when handling this substance. It is important to work in a well-ventilated area to minimize the risk of inhalation exposure. In case of skin contact, the affected area should be rinsed thoroughly with water and soap, and medical attention should be sought if irritation persists. Additionally, spills of Ethanamine, N-methyl- should be cleaned up promptly and properly disposed of according to local regulations to prevent environmental contamination.
🔬 Potential Research Directions
Research on Ethanamine, N-methyl- could explore its potential as a precursor in pharmacological synthesis due to its structural similarity to various psychoactive substances. Additionally, studying its physiological effects may shed light on its potential as a novel therapeutic agent for various health conditions.
Further investigations could delve into the synthesis and characterization of derivatives of Ethanamine, N-methyl- to assess their pharmacological activities and potential applications in drug development. Understanding the structure-activity relationship of these derivatives may provide valuable insights into their mechanisms of action and potential therapeutic benefits.
Exploring Ethanamine, N-methyl- as a potential ligand for various receptors in the human body could yield valuable information on its interaction with biological targets, potentially leading to the development of new drugs with enhanced efficacy and reduced side effects. Additionally, investigating its pharmacokinetic properties could provide valuable data for the optimization of dosage regimens and treatment strategies.
🧪 Related Compounds
One similar compound to Ethanamine, N-methyl- is N,N-dimethylethanamine. This compound contains an extra methyl group attached to the nitrogen atom, leading to a different molecular structure. N,N-dimethylethanamine is commonly used in organic synthesis, with a variety of applications in the pharmaceutical and chemical industries.
Another similar compound to Ethanamine, N-methyl- is N-ethylmethanamine. In this compound, the methyl group is replaced by an ethyl group connected to the nitrogen atom. N-ethylmethanamine has different physical and chemical properties compared to Ethanamine, N-methyl-, due to this structural difference. This compound is also used in various chemical reactions and as a building block in the synthesis of pharmaceuticals.
One more compound related to Ethanamine, N-methyl- is N-propylniturite. In this compound, the methyl group is substituted with a propyl group connected to the nitrogen atom. This structural change alters the compound’s properties, affecting its reactivity and application in different chemical processes. N-propylniturite has unique characteristics that make it valuable in certain chemical reactions and industrial processes.
