N-Methylphenethylamine, a chemical compound that falls under the category of phenethylamines, holds relevance in everyday life due to its potential effects on the brain and central nervous system. Research has shown that this compound may influence mood, energy levels, and cognitive function, making it a subject of interest in the fields of pharmacology and neuroscience. While further studies are needed to fully understand its impact, N-Methylphenethylamine represents a promising area of exploration for potential therapeutic applications or as a target for drug development. Its relevance lies in its potential to improve mental health and well-being, offering avenues for further research and innovation in the realm of neurological health.
Table of Contents:
- 💡 Commercial Applications
- ⚗️ Chemical & Physical Properties
- 🏭 Production & Procurement
- ⚠️ Safety Considerations
- 🔬 Potential Research Directions
- 🧪 Related Compounds
💡 Commercial Applications
N-Methylphenethylamine, also known as NMPEA, has several commercial and industrial applications. It is commonly used as an intermediate in the production of various pharmaceuticals and agrochemicals. NMPEA is also utilized in the manufacturing of specialty chemicals and dyes due to its unique chemical properties.
In the realm of drug and medication applications, N-Methylphenethylamine has shown potential as a stimulant and anorectic agent, similar to other amphetamines. However, its use in this capacity is limited and not widely studied. There is ongoing research to explore the therapeutic potential of NMPEA in treating conditions such as attention-deficit hyperactivity disorder (ADHD) and obesity.
While NMPEA has some intriguing properties that may be beneficial in certain medical applications, its use in the pharmaceutical industry is not as common as other related compounds. The limited availability of studies on its efficacy and safety profile hinder its widespread use as a drug or medication. Further research is needed to fully understand the potential of N-Methylphenethylamine in various therapeutic contexts.
⚗️ Chemical & Physical Properties
N-Methylphenethylamine, also known as N,α-dimethylphenethylamine, is a chemical compound that appears as a white crystalline powder with no distinctive odor.
It has a molar mass of 165.24 g/mol and a density of 1.02 g/cm3. Compared to common food items, N-Methylphenethylamine has a higher molar mass and density, making it relatively denser and heavier.
Its melting point is around 96-98 °C, while its boiling point is approximately 200-205 °C. In comparison to common food items, N-Methylphenethylamine has higher melting and boiling points, indicating greater thermal stability.
N-Methylphenethylamine is slightly soluble in water and has a low viscosity. Compared to common food items, it has lower solubility in water and viscosity, making it less likely to dissolve or flow easily in aqueous solutions.
🏭 Production & Procurement
N-Methylphenethylamine, also known as NMPEA, is typically produced through chemical synthesis in a laboratory setting. This process involves the reaction of phenethylamine with a methylating agent to form the desired compound. The purity and yield of the final product can be optimized through various purification techniques.
NMPEA can be procured from chemical suppliers or pharmaceutical companies that specialize in research chemicals. It is often shipped in a solid form, such as a crystalline powder or small pellets, in sealed containers to prevent contamination or degradation during transport. Careful handling and storage of NMPEA are necessary to maintain its stability and integrity.
Transportation of NMPEA usually involves shipping by reputable courier services that comply with regulations for handling hazardous or potentially dangerous substances. Proper documentation and labeling are essential for the safe and legal transport of NMPEA to various research facilities or end-users. Additionally, security measures may be implemented to prevent unauthorized access or misuse of the compound.
⚠️ Safety Considerations
Safety considerations for N-Methylphenethylamine include its potential for causing skin irritation, eye irritation, and respiratory irritation. It is important to handle this compound with care, using appropriate personal protective equipment such as gloves, goggles, and a respirator. Additionally, N-Methylphenethylamine should be stored in a cool, dry place away from heat and sources of ignition to prevent potential fire or explosion hazards.
Hazard statements for N-Methylphenethylamine include “Causes skin irritation” and “Causes serious eye irritation.” These statements indicate the potential risks associated with direct contact of the compound with the skin or eyes. It is important to take precautions to prevent exposure and to seek medical attention if contact occurs.
Precautionary statements for N-Methylphenethylamine include “Wear protective gloves/protective clothing/eye protection/face protection.” These statements emphasize the importance of using appropriate personal protective equipment when handling the compound to minimize the risk of skin and eye irritation. It is also recommended to avoid breathing in vapors or dust, and to wash hands thoroughly after handling.
🔬 Potential Research Directions
One potential research direction for N-Methylphenethylamine is the investigation of its pharmacological properties, including its effects on neurotransmitter systems and receptor binding profiles. Understanding these mechanisms could provide insight into the compound’s potential therapeutic uses or side effects.
Another avenue for research on N-Methylphenethylamine is its metabolism and kinetics in the human body. Studying how the compound is broken down and eliminated from the body can help in determining safe dosages and potential drug interactions.
Furthermore, exploring the structure-activity relationship of N-Methylphenethylamine and its analogs could lead to the development of more potent and selective compounds with desired pharmacological effects. This research could also shed light on the compound’s molecular targets and mechanisms of action.
🧪 Related Compounds
One similar compound to N-Methylphenethylamine based upon molecular structure is N-Ethylphenethylamine. This compound has the same phenethylamine backbone as N-Methylphenethylamine but with an ethyl group attached to the nitrogen atom instead of a methyl group. This subtle difference in structure can lead to variations in biological activity and pharmacological properties.
Another related compound is N,N-Dimethylphenethylamine. In this molecule, there are two methyl groups attached to the nitrogen atom of the phenethylamine backbone. This structural modification can impact the compound’s interactions with biological targets and its overall potency compared to N-Methylphenethylamine.
Additionally, N-Methylphenethylamine is structurally similar to N-Isopropylphenethylamine. In this compound, an isopropyl group is attached to the nitrogen atom instead of a methyl group. This change in the alkyl substituent can result in differences in physiological effects and metabolic stability compared to N-Methylphenethylamine.