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What is the chemical structure of N- [ (4-vinylphenyl) methyl] -3-pyridylmethylamine?
This is the problem of seeking molecular structure in organic chemistry. To solve the "chemical structure of N - [ (4-ethylphenyl) methyl] - 3 - to its ethyl amine", it is necessary to analyze it according to the method of organic chemistry nomenclature and structure drawing.
"N - [ (4-ethylphenyl) methyl]", this part shows that there is a group connected to the nitrogen atom (N), which is connected to an ethyl group by a benzene ring at its No. 4 position, and the methyl group of the benzene ring is connected to the nitrogen atom. That is to say, there is a structure of a benzene ring, with a -CH ² CH ² (ethyl) sticking out at the 4th position of the benzene ring, and a hydrogen atom on the benzene ring is replaced by -CH ³ - and connected to the nitrogen atom.
"-3-to-its ethylamine" means that on the basis of the structure connected to the nitrogen atom, there is also a propyl group (-CH ² CH ² CH 😉) connected to the nitrogen atom, and the third carbon atom of this propyl group is connected to the nitrogen atom.
In general, the chemical structure of this compound is: one end of the nitrogen atom is connected to [ (4-ethylphenyl) methyl], that is, -CH ³ -benzene ring (the 4th position has -CH ³ CH 😉); the other end is connected to -CH ³ CH ³ (propyl, and the 3-position is connected to the nitrogen atom). Thus, the chemical structure of N - [ (4-ethylphenyl) methyl] - 3 - to its ethyl amine is constructed. Through this analysis, the spatial structure and atomic connection of the compound can be clearly depicted according to the rules of organic chemistry, so as to clarify its chemical properties and reactivity.
What are the physical properties of N- [ (4-vinylphenyl) methyl] -3-pyridylmethylamine?
N - [ (4-ethylphenyl) methyl] - 3 - to its methylamine is an organic compound, its physical properties are as follows:
Usually at room temperature and pressure, this substance is mostly liquid or solid. If it is liquid, it often has a certain fluidity, and the appearance may be clear and transparent, or it may be slightly cloudy due to impurities. If it is solid, its shape may be crystalline, and it may exhibit a regular crystal structure. The crystal form may vary depending on the crystallization conditions.
In terms of solubility, the solubility of this substance in organic solvents is more prominent. Organic solvents such as common ethanol, ether, chloroform, etc. have good solubility to it. This is because there are specific interactions between the molecular structure of the compound and the molecules of the organic solvent, such as van der Waals forces, hydrogen bonds, etc., so that it can be uniformly dispersed in the organic solvent. However, the solubility in water is relatively poor. This is due to the strong hydrogen bonding between water molecules, forming a relatively stable structure, while the interaction between this compound and water molecules is weak, making it difficult to effectively break the hydrogen bond network between water molecules and integrate into it.
The melting boiling point of this substance is significantly affected by the intermolecular forces. Intermolecular forces mainly include van der Waals forces and possible hydrogen bonds. Due to the complexity of its molecular structure, the intermolecular van der Waals forces are relatively large, making the melting boiling point not too low. The specific melting and boiling point value needs to be determined according to accurate experiments, but the approximate range can be inferred that the melting point is in a certain temperature range, and the boiling point is also in the corresponding higher temperature range.
In addition, the substance may have a certain odor. Odor is generated by the evaporation of molecules into the air, which stimulates olfactory receptors. Its odor characteristics may be unique, perhaps similar to the odor of some aromatic compounds, but the specific odor description needs to be accurately determined by actual smelling.
In summary, N - [ (4-ethylphenyl) methyl] - 3 - methylamine is mostly liquid or solid at room temperature and pressure, and has good solubility in organic solvents, poor solubility in water. The melting point has a certain range due to intermolecular forces, and may have a specific odor.
What are the main uses of N- [ (4-vinylphenyl) methyl] -3-pyridylmethylamine?
The main use of N - [ (4-ethylphenyl) methyl] -3 -diacetate is for the preparation of various drugs, organic synthesis intermediates and fine chemicals.
In the field of drug preparation, this compound can be used as a key intermediate. Due to its specific chemical structure and activity, it can participate in the construction process of many drug molecules. For example, in the synthesis path of some anti-inflammatory drugs, its functional groups can precisely react with other reagents, and through a series of chemical transformations, shape complex drug molecules with anti-inflammatory activity, helping to relieve human inflammation and relieve pain.
In the field of organic synthesis intermediates, it is like an important cornerstone for building an organic compound building. With its unique chemical properties, it can react with a variety of different types of compounds to achieve the construction of carbon-carbon bonds and carbon-heteroatomic bonds, and then derive a wide range of organic compounds with diverse structures, which greatly expands the diversity and possibility of organic synthesis, and lays the foundation for the synthesis of more complex and novel organic materials.
As a raw material for fine chemicals, it can endow fine chemicals with specific properties. In the preparation of some high-performance coatings, the products it participates in the reaction can improve the adhesion, durability and other key performance indicators of the coating, so that the coating can maintain good use effect in different environments and prolong the service life. It is widely used in construction, automotive and many other industries that require strict coating performance.
What are the synthesis methods of N- [ (4-vinylphenyl) methyl] -3-pyridylmethylamine?
The preparation of N - [ (4-ethylphenyl) methyl] -3 -parformamide can be achieved by various methods. One common method is to use 4-ethylbenzaldehyde and methylamine as starting materials, first through condensation reaction to obtain imine intermediates, and then with suitable reducing agents, such as sodium borohydride, the imine is reduced to an amine, and then the amine is reacted with formic acid or its derivatives, such as ethyl formate, under suitable conditions to obtain the target product N - [ (4-ethylphenyl) methyl] -3 -parformamide.
Furthermore, 4-ethylbenzyl halide (such as 4-ethylbenzyl chloride) can also be reacted with methylamine to form N - (4-ethylbenzyl) methylamine, which is then reacted with a formylating agent, such as trichloroacetaldehyde and formic acid produced by co-heating with water, at appropriate temperature, pressure and in the presence of a catalyst to obtain the desired product.
Or, 4-ethylbenzyl alcohol is used as the starting material, which is first converted into the corresponding halogen (such as bromide), then reacted with methylamine to form an amine, and finally formylated to obtain the target compound. Each method has its own advantages and disadvantages. In actual operation, it is necessary to comprehensively consider the availability of raw materials, the difficulty of reaction conditions, the purity and yield of the product, etc., and choose the most suitable one to achieve the efficient synthesis of N - [ (4-ethylphenyl) methyl] -3 - to its formamide.
What are the precautions for N- [ (4-vinylphenyl) methyl] -3-pyridylmethylamine during storage and transportation?
N - [ (4 -ethylphenyl) methyl] - 3 -methylamine must pay attention to the following things during storage and transportation:
First, this material has a certain chemical activity and requires strict storage environment. It should be placed in a cool, dry and well-ventilated place, away from fire and heat sources. If the ambient temperature and humidity are too high, it may cause its chemical properties to change and cause damage to the quality. For example, high temperature may accelerate the reaction, or chemically react with surrounding substances, causing the original properties to change and affecting subsequent use.
Second, during transportation, ensure that the packaging is complete and sealed. Due to its special composition, if the package is damaged, it will not only cause material leakage, pollute the environment, but also may react with external substances, causing danger. In a well-sealed container, such a situation can be effectively avoided.
Third, N - [ (4-ethylphenyl) methyl] - 3 - methylamine to it or potential harm to the human body. Operators and transportation personnel must take appropriate protective measures, such as wearing protective gloves, goggles and gas masks. In case of accidental contact, they should be handled immediately according to emergency treatment procedures to ensure the safety of personnel.
Fourth, storage and transportation places should be equipped with corresponding fire equipment and leakage emergency treatment equipment. In case of fire or leakage, it can respond quickly to reduce losses and hazards. And the field requires strict control of personnel entering and leaving, and non-professionals are not allowed to enter at will to prevent accidents.
