Molecular Formula | C10H16 |
Molar Mass | 136.23 |
Density | 0.8735 g/cm3 |
Boling Point | 65-66 °C(Press: 11 Torr) |
Methylene-4- (1-methylvinyl) cyclohexane, also known as MVE. Its uses include
1. Chemical intermediates: MVE is an intermediate for synthesizing other compounds, which can react with other compounds to prepare a series of organic compounds with important functions, such as insecticides, dyes, hormones, plasticizers, etc.
Methylene-4- (1-methylvinyl) cyclohexane, also known as 4-MEC, is a synthetic drug and research compound. The following are its main uses:
1. Stimulants: 4-MEC belongs to the class of amphetamine compounds and has the effect of a stimulant. Some users use it as an enhancer of energy and attention, similar to amphetamines.
2. Research purposes: As 4-MEC is a novel synthetic drug, researchers have used it to understand its effects and effects. It is commonly used as a tool for pharmacological or toxicological research.
3. Drug abuse: 4-MEC is abused in certain regions. It can be taken orally, inhaled or injected, resulting in a stimulant like effect. However, the misuse of 4-MEC poses significant risks, including endangering physical health and legal issues.
It should be noted that using 4-MEC carries certain risks and side effects. Abuse or excessive use of 4-MEC may lead to cardiovascular problems, mental disorders, restlessness, and physical harm. Therefore, it is strongly recommended not to abuse or use illegal drugs. For scientific research, it should be used in an appropriate laboratory environment.
There are various methods for preparing 1-methylene-4- (1-methylvinyl) cyclohexane, among which the most commonly used method is through the condensation reaction of olefins and formaldehyde under acid catalysis. The specific steps are as follows:
1. Put olefins (such as cyclohexene) and formaldehyde in a certain molar ratio into a reaction vessel.
2. Add a certain amount of acid catalyst (such as sulfuric acid) as a catalyst to start the reaction.
3. Conduct the reaction at appropriate temperature and pressure, with a general reaction temperature ranging from room temperature to 60 ℃ and a reaction pressure of atmospheric pressure or slightly higher.
4. After a certain reaction time, remove the reaction mixture.
5. After distillation separation, crystallization, filtration and other process steps, pure 1-methylene-4- (1-methylvinyl) cyclohexane can be obtained.
There are various methods for preparing 1-methylene-4- (1-methylvinyl) cyclohexane, among which the most commonly used method is through the condensation reaction of olefins and formaldehyde under acid catalysis. The specific steps are as follows:
1. Put olefins (such as cyclohexene) and formaldehyde in a certain molar ratio into a reaction vessel.
2. Add a certain amount of acid catalyst (such as sulfuric acid) as a catalyst to start the reaction.
3. Conduct the reaction at appropriate temperature and pressure, with a general reaction temperature ranging from room temperature to 60 ℃ and a reaction pressure of atmospheric pressure or slightly higher.
4. After a certain reaction time, remove the reaction mixture.
5. After distillation separation, crystallization, filtration and other process steps, pure 1-methylene-4- (1-methylvinyl) cyclohexane can be obtained.
1-Methylene-4- (1-methylvinyl) cyclohexane is an organic compound that is a colorless liquid with a special odor. It is volatile and soluble in organic solvents.
Methylene-4- (1-methylvinyl) cyclohexane, also known as p-Mentadiene, is an organic compound. Its chemical formula is C10H16, and its molecular weight is 136.23.
Methylene-4- (1-methylvinyl) cyclohexane is a colorless and transparent liquid with a spicy odor. It is an isomer of cyclohexene and has properties similar to cyclohexene.
This compound has a central chiral carbon atom surrounded by four different substituents. Therefore, there are two enantiomers of methylene 4- (1-methylvinyl) cyclohexane. These two enantiomers are (R) - methylene-4- (1-methylvinyl) cyclohexane and (S) - methylene-4- (1-methylvinyl) cyclohexane, respectively.
These two isomers have similar chemical properties, but for optically active compounds, their biological activity, stability, and reactivity may differ.
Methylene-4- (1-methylvinyl) cyclohexane has applications in many aspects. It can be used as a chemical raw material to synthesize other compounds, such as spices, essence and drugs. In addition, it can also be used as a catalyst, solvent, and reaction activator.
Overall, methylene-4- (1-methylvinyl) cyclohexane is an organic compound with a pungent odor, chiral carbon atoms, and two enantiomers. It can be used to synthesize other compounds and in fields such as catalysts, solvents, and reaction activators.