The name of this substance is 1- (2-hydroxyethyl) -4-ether anthracene, and its main use is quite important. This substance has been used in many fields, especially in the fields of medicine and chemical industry.
In the field of medicine, it can be used as a key intermediate due to its unique chemical structure. The synthesis of many drugs requires this as the basic raw material, through delicate chemical reactions, to be converted into substances with specific pharmacological activities. For example, in the preparation of some anti-tumor drugs, 1- (2-hydroxyethyl) -4-ether anthracene plays an indispensable role. It participates in the construction of the core structure of drugs, enabling drugs to precisely act on tumor cells, inhibit their growth, or induce their apoptosis, and contribute to overcoming tumor diseases.
In the chemical industry, 1- (2-hydroxyethyl) -4-ether anthracene also shows extraordinary value. In fine chemical production, it can be used to synthesize dyes with excellent performance. Due to its own chemical properties, it can endow dyes with unique color and good dyeing properties, making them shine in dyeing processes such as textiles and leather. At the same time, in the synthesis of polymer materials, the substance can participate in polymerization reactions as a functional monomer. The polymer materials formed in this way have unique advantages such as better thermal stability and mechanical properties, and are widely used in high-end fields such as aerospace and automobile manufacturing to help the development of related industries.
It can be seen that 1- (2-hydroxyethyl) -4-ether anthracene, although seemingly ordinary, plays a pivotal role in the vast world of medicine and chemical industry, and has far-reaching significance for promoting progress in related fields.

"Tiangong Kaiwu" says: "The material properties of 1- (2-hydroxyethyl) -4-methoxy are related to many things."
This 1- (2-hydroxyethyl) -4-methoxy group is one of the organic compounds. It has specific physical properties. Looking at its appearance, it is often a colorless to slightly yellow transparent liquid with uniform texture and no obvious impurities.
When it comes to the boiling point, under a specific pressure, it can reach a certain value. This value is a key indicator of its gasification in a specific environment, which is related to its phase transition under different temperature conditions. Its melting point is also fixed. When the temperature drops to this point, the substance gradually turns from liquid to solid. This temperature characteristic is extremely important when storing and processing substances.
In terms of solubility, it exhibits good solubility in organic solvents such as ethanol and acetone, and can be mutually soluble with it to form a uniform and stable mixed system. However, in water, the solubility is relatively limited, which affects its application in different media environments.
Density is also one of its important physical properties. Under a given temperature and pressure, its density is a certain value. This value can help identify the substance, and it is indispensable in application scenarios involving mass and volume conversion.
In addition, the refractive index of this substance also has a unique value, which may have its unique use in optics-related fields, such as as as an additive to optical materials. These physical properties are inherent in 1- (2-hydroxyethyl) -4-methoxy, and are of great significance in chemical, pharmaceutical and other industries. They are the key basis for their application and research.

The chemical properties of 1- (2-hydroxyethyl) -4-benzyl are relatively stable.
In this compound, the hydroxyl group in the hydroxyethyl group has a certain activity and can participate in many reactions, such as esterification with acids. Under suitable conditions, the hydrogen atom in the hydroxyl group can be replaced by other groups. However, due to the existence of the entire molecular structure, the activity of the hydroxyl group is limited to a certain extent, which improves the stability of the alcohol hydroxyl group alone.
The benzyl part, whose benzyl ring structure has a conjugated system, endows the benzyl group with relatively stable characteristics. Benzyl is connected to the phenyl ring, and its hydrogen atom has a certain activity, which can be substituted under the action of specific reagents. However, due to the conjugation effect of the benzene ring, the overall chemical properties of benzyl groups tend to be stable and are not prone to violent reactions.
From the perspective of the entire 1- (2-hydroxyethyl) -4-benzyl molecule, each group affects and restricts each other. Hydroxyethyl and benzyl are connected through the carbon chain, and the electron cloud distribution in the molecule is relatively uniform, and there is no particularly active area that is prone to unstable reactions. Under the general environment and common chemical reaction conditions, if there is no suitable catalyst or special reaction conditions, this compound can maintain a stable state and will not undergo significant chemical changes such as decomposition and polymerization on its own.
Such structural properties make 1- (2-hydroxyethyl) -4-benzyl used in many fields. Because of its stability, it is often used as a stable intermediate in organic synthesis and participates in the construction of complex compounds. In the field of materials science, it can be used as a component of structural stability to improve material properties.

The process of making 1- (2-hydroxyethyl) -4-methoxy is a delicate and complicated technique.
To make this material, the first thing to do is to prepare the material carefully. Put an appropriate amount of starting material in the kettle. This raw material needs to be carefully selected and the purity must be high to ensure the smooth subsequent reaction. Pour the selected starting material into the reactor in a precise proportion. This ratio is related to the success or failure of the reaction, the difference is slightest, or the result is very different, so it needs to be done with the accuracy of the balance and the accuracy of the measurement.
Then, temperature control is the key. Gradually heat up, so that the temperature in the kettle gradually reaches a certain range. This temperature is not random, but is obtained through repeated trials and careful calculations. If the temperature is too low, the reaction will be slow, or it will be abandoned halfway; if the temperature is too high, there will be side reactions that may damage the purity of the main product. When heating up, fine instruments must be used to monitor to ensure that the temperature fluctuation is less than a centimeter.
At this temperature, add an appropriate catalyst. The catalyst is like a guide for a good hand, which can accelerate the reaction. However, the dosage also needs to be considered. If it is too much, it will be too much, and if it is less effective, it will be difficult to show the effect. When the catalyst is added to the kettle, the stirring speed should also be appropriate. If the stirring is too slow, the material will be difficult to homogenize and the reaction will be uneven; if the stirring is too fast, the environment in the kettle will be unstable.
During the reaction process, it needs to be monitored from time to time. With sophisticated analytical instruments, the degree of reaction can be detected, and the formation of main products and the amount of by-products can be observed. When the reaction is gradually expected, it will be terminated in time. This word "timely" is a great test of the craftsman's work. Early on, the product is incomplete, and later it may be lost.
Then, it is not easy to separate and purify the product. After a series of methods such as distillation, extraction, and crystallization, impurities are removed and the purity is improved, and the pure 1- (2-hydroxyethyl) -4-methoxy is finally obtained. Every step requires the attention of the craftsman, with exquisite skills and rigorous attitude, to achieve this exquisite process.

Now there is 1 - (2 - hydroxyethyl) - 4 - chlorobenzene in the market, what is the price? Let me tell you.
The price of this 1 - (2 - hydroxyethyl) - 4 - chlorobenzene in the market often varies according to the quality, quantity, time and place.
If the quality is excellent, the supply is less and the demand is more, the price will be higher; if the quality is normal, the supply is sufficient and the demand is stable, the price will be slightly flat. And if the quantity is purchased more, the merchant may have a discount, and the price will also be reduced.
It is different from time to time. When new products are listed, or raw materials are easily available, the price may decline; if raw materials are scarce, production is difficult, and the price may rise. Different places, in prosperous places, commercial taxes and rents are high, and the price may be higher in more remote places.
Roughly speaking, the price of this 1- (2-hydroxyethyl) -4-chlorobenzene in the city is between tens of yuan and hundreds of yuan per kilogram. However, this is only an approximate number. The actual price should be consulted with merchants in various cities in detail, depending on the real-time situation. It must not be generalized.