1,1'-[4-[(4-Ethenylphenyl)methoxy]-2,6-pyridinediyl]bis[ethanone]

1%2C1%27-%5B4-%5B%284-Ethenylphenyl%29methoxy%5D-2%2C6-pyridinediyl%5Dbis%5Bethanone%5D, this is the name of an organic compound. Its main use is commonly found in the field of chemical synthesis.
In the process of organic synthesis, this compound is often used as a key intermediate. With its special chemical structure, it can participate in a variety of reactions, and it can be cleverly designed to build more complex organic molecular structures. For example, in the initial stage of some new drug development, it may be selected, through a series of chemical reactions, to gradually move closer to the established drug molecular framework, laying the foundation for the creation of drugs with specific pharmacological activities.
It also has a place in the field of materials science. It can be used as an important raw material for the synthesis of functional materials. After appropriate reaction and processing, the material can be imparted with specific optical, electrical or mechanical properties, so as to meet the needs of different fields such as electronic devices and optical materials for special properties of the material.
In the fine chemical industry, this compound may be used to prepare special additives. These additives can optimize the performance of the product. For example, when added to coatings, it can improve the adhesion, weather resistance and other properties of coatings; when used in plastics processing, it can enhance the flexibility and stability of plastics.
All in all, 1%2C1%27-%5B4-%5B%284-Ethenylphenyl%29methoxy%5D-2%2C6-pyridinediyl%5Dbis%5Bethanone%5D plays an indispensable role in many fields such as chemical synthesis, materials science and fine chemicals with its unique chemical properties, providing important support for technological progress and product innovation in various fields.

1%2C1%27-%5B4-%5B%284-Ethenylphenyl%29methoxy%5D-2%2C6-pyridinediyl%5Dbis%5Bethanone%5D this substance, its physical properties are as follows:
Viewed, or as a solid state, but the color and specific appearance vary depending on the preparation conditions and purity. Its melting point and boiling point are also quite critical, and there is little detailed data available. This substance may have some solubility in common organic solvents.
When it comes to density, it is difficult to determine due to the lack of accurate measurement. However, the characteristics of its density are related to its fluctuation and dispersion in different media.
The stability of this substance may have certain stability under normal conditions. However, under extreme conditions such as high temperature, strong acid, and strong base, or chemical changes may occur, resulting in changes in its structure and properties.
The optical properties such as refractive index are also closely related to the molecular structure, which is of great significance in the study of light propagation and material interaction.
In addition, the physical properties such as adsorption and hygroscopicity of this substance may be affected by factors such as environmental humidity and temperature. However, the specific situation still needs to be experimentally explored.
In short, 1%2C1%27-%5B4-%5B%284-Ethenylphenyl%29methoxy%5D-2%2C6-pyridinediyl%5Dbis%5Bethanone%5D the detailed physical properties, more experiments and studies are needed to accurately grasp it and provide a solid basis for its application in various fields.

1%2C1%27-%5B4-%5B%284-Ethenylphenyl%29methoxy%5D-2%2C6-pyridinediyl%5Dbis%5Bethanone%5D, this is an organic compound. The stability of its chemical properties is related to many factors.
The structure of this compound contains specific functional groups and chemical bonds. From its structural analysis, vinyl phenyl methoxy is connected to pyridine digroups, and there are ethyl ketones on both sides. This structure gives it unique chemical activity.
In terms of stability, the pyridine ring has a certain degree of aromaticity, which can enhance the stability of the molecule. However, the presence of vinyl makes it unsaturated, and reactions such as addition can occur, resulting in reduced stability. Ethyl ketone can also participate in various reactions, such as nucleophilic addition, which has an impact on stability. < Br >
In different environments, its stability is also different. In the environment of normal temperature and pressure and no special reagents, if there is no external stimulation such as light and high temperature, this compound can remain relatively stable. When encountering strong acids, strong bases, strong oxidants or reducing agents, the chemical bonds are easily destroyed, chemical reactions occur, and the stability is affected.
Overall, the chemical stability of 1%2C1%27-%5B4-%5B%284-Ethenylphenyl%29methoxy%5D-2%2C6-pyridinediyl%5Dbis%5Bethanone%5D is not absolute. Due to the combined action of structure and environmental factors, the stability has a certain limit, and it is prone to chemical changes under specific conditions.

1%2C1%27-%5B4-%5B%284-Ethenylphenyl%29methoxy%5D-2%2C6-pyridinediyl%5Dbis%5Bethanone%5D, the method of synthesizing this compound is very complicated.
To prepare this compound, the first thing to do is to find its raw materials. 4- (4-vinylphenyl) methoxy-2,6-pyridinedicaryl chloride and acetyl compounds are required.
At the beginning, the phenyl ether containing vinyl is connected to the designated position of the pyridine ring through a fine reaction to obtain a pyridine derivative containing a specific structure. This step needs to be controlled at a precise temperature, duration, and appropriate catalyst to promote the antegrade of the reaction. < Br >
Then, the pyridine derivative and the acetyl donor are slowly reacted in a suitable solvent under the catalysis of alkali. The amount of alkali and the environment of the reaction must be carefully considered to avoid side effects.
After the reaction is completed, it is purified by extraction, distillation, recrystallization and other purification techniques to obtain a pure 1%2C1%27-%5B4-%5B%284-Ethenylphenyl%29methoxy%5D-2%2C6-pyridinediyl%5Dbis%5Bethanone. Each step of purification must be carefully handled to obtain a high-purity product. In this way, following this series of steps, the target compound may be obtained.

I don't know what you mean by "1%2C1%27-%5B4-%5B%284-Ethenylphenyl%29methoxy%5D-2%2C6-pyridinediyl%5Dbis%5Bethanone%5D" the price of this product in the market. This is a very professional chemical substance, and its price is often affected by many factors.
First, the purity has a great impact. If the purity is extremely high, it is suitable for high-end scientific research or special industrial use, its price will be high; if the purity is slightly lower, it is used for general experiments or production, and the price may be slightly lower.
Second, the market supply and demand relationship is also critical. If there are many people who want it, but there are few products, the price will rise; if the market supply is abundant and the demand is normal, the price may stabilize or drop.
Third, the production process is related to cost. If the preparation requires complex processes, expensive raw materials or special equipment, the price will also be high if the cost is high.
Fourth, the pricing of different suppliers is different. Each merchant considers its own operating costs, profit expectations and other factors, and the price quoted may vary.
To know the exact price range of this product, when consulting chemical reagent suppliers, chemical product trading platforms, or relevant professionals, they can tell you a more accurate price range according to the current market conditions.