3-Hydroxyethyloxybenzoylbenzene is mainly used in the fields of medicine and chemical industry.
In medicine, it can be used as a key intermediate for the synthesis of a variety of drugs. For example, in the preparation of some anti-inflammatory drugs, with its unique chemical structure, it can interact with specific biomolecules to help build a drug molecular structure with effective anti-inflammatory activity. Taking the preparation of a class of drugs for arthritis treatment as an example, 3-hydroxyethyloxybenzoylbenzene can undergo a series of chemical reactions and combine with other active groups to generate compounds that inhibit key enzymes in the inflammatory response, thereby relieving joint inflammation symptoms.
In the chemical industry, it can be applied to the synthesis of fine chemicals. For example, in the creation process of high-end fragrances, this substance can endow fragrances with unique aroma characteristics and chemical stability. Due to its special structure, it can participate in complex organic reactions to generate fragrance components with unique flavor and lasting fragrance. In the synthesis of new sunscreens, 3-hydroxyethyloxybenzoylbenzene can be used as an important starting material. Through chemical modification, groups with ultraviolet absorption capacity are introduced, thereby obtaining efficient sunscreen active ingredients and enhancing the protective effect of sunscreen products.

3-Hydroxyethyloxynaphthalene is an organic compound. Its physical properties are unique, so let me tell you in detail.
Looking at its shape, it is mostly white to light yellow crystalline powder at room temperature, with a fine texture, just like the micro-powder of heaven. Its melting point is quite critical, about a specific range, and this characteristic is of great significance in many chemical operations and industrial applications. Just like the ancient craftsmen, only by accurately grasping the characteristics of materials can they cast delicate utensils and know the melting point, chemists can process and purify them at suitable temperatures.
Solubility is also an important physical property. 3-Hydroxyethyloxynaphthalene has certain solubility in organic solvents, such as ethanol, ether, etc. Just like fish entering water, it can be well dispersed and dissolved in the "arms" of these organic solvents. This property makes it a reactant or intermediate in organic synthesis reactions. With the "help" of organic solvents, it can more smoothly participate in the chemical reaction and achieve the expected chemical transformation.
In addition, its boiling point also has characteristics. The level of boiling point depends on the temperature at which the substance will change from liquid to gaseous. This property is crucial in operations such as distillation and separation, and can help chemists precisely separate 3-hydroxyethoxynaphthalene from the mixed system to obtain pure things, like picking out treasures from the clutter.
In addition, 3-hydroxyethyloxynaphthalene also has a certain smell. Although it is not strong and pungent, it also has unique characteristics. This smell can also be used as an auxiliary basis for identifying the substance, just like people have their own unique smell.
To sum up, these physical properties of 3-hydroxyethyloxynaphthalene play an important role in chemical research, industrial production and many other fields, helping people to better understand and use this material, just like a wise man who relies on his insight into the characteristics of all things to control the power of nature and seek the well-being of mankind.

3-Hydroxyethyl aminonaphthalene has specific properties and is related to chemistry, which cannot be ignored. This substance is hydrophilic. Because it contains hydroxyethyl, the hydroxyl group can form hydrogen bonds with water, resulting in good solubility in water. And its amino group also increases its water solubility. Because the amino group has lone pair electrons, it can interact with water.
When it comes to reactivity, the amino group is an electron-rich group, which is basic and can form salts with acids. In organic synthesis, it is often used as a nucleophilic reagent to react with electrophilic reagents such as halogenated hydrocarbons and acyl halides to produce various nitrogen-containing compounds.
And because of the conjugated system of the naphthalene ring, it has certain stability and special optical properties. The naphthalene ring can absorb light of specific wavelengths, causing it to have a characteristic absorption spectrum, which can be used for qualitative and quantitative detection in analytical chemistry.
It has a great influence on chemical reaction conditions, temperature, solvent and other factors. Moderate heating can promote the reaction rate, but if it is too high, it may cause side reactions. Choosing an appropriate solvent is related to the reaction direction and efficiency. Polar solvents are conducive to ionic reactions, and non-polar solvents or specific nucleophilic substitutions.
In short, 3-hydroxyethylaminonaphthalene is rich in chemical properties and is important in organic synthesis, analysis and detection. Good research and application can lead to many benefits.

There are various ways to synthesize 3-hydroxyethyloxynaphthalene. One can be obtained by reacting naphthol with ethylene oxide under specific conditions. In this method, the phenolic hydroxyl group of naphthol is nucleophilic, and the ethylene oxide is electrophilic. When the two meet, the phenolic hydroxyl group attacks the carbon atom of ethylene oxide, causing the epoxy bond to open the ring, and then generates 3-hydroxyethyloxynaphthalene. When reacting, pay attention to the choice of temperature and catalyst. A suitable temperature can make the reaction occur smoothly without being too rapid or slow; a suitable catalyst can speed up the reaction rate and improve the yield of the product.
Furthermore, naphthol can be reacted with halogenated ethanol first. The phenolic hydroxyl group of naphthol and the halogen atom of halogenated ethanol undergo nucleophilic substitution reaction, the halogen atom leaves, and the phenolic hydroxyl group is connected to it, thus forming 3-hydroxyethyloxynaphthalene. In this process, the halogen atom activity of halogenated ethanol is very important, and the reaction is prone to occur if the activity is high. And the choice of reaction solvent cannot be ignored. A good solvent can improve the solubility of the reactants, so that the reaction can be carried out in a homogeneous system, which is beneficial to the smooth progress of the reaction.
Or it can be synthesized by addition reaction with naphthol and vinyl ether as raw materials. The double bond of vinyl ether is electrophilic, and the hydrogen of naphthol phenol hydroxyl is added to it to form a carbon-oxygen This reaction needs to be carried out in the presence of a catalyst, which can activate the reactants, reduce the activation energy of the reaction, and promote the occurrence of the reaction. And the reaction environment also needs to be precisely controlled to avoid the growth of side reactions to ensure the purity and yield of the product.

3-Hydroxyethylaminonaphthalene has all kinds of things to pay attention to when storing and transporting. Its nature is delicate and it is easy to change when exposed to light. Therefore, when storing, it should be placed in a dark place, and it should be stored in dark-colored utensils to avoid the harm of light. The temperature is also important. If it is too high, the quality will change easily. It should be stored in a cool place, usually 2-8 ° C. It is better not to be in a place with high temperature and extreme heat.
When transporting, the first weight should be stable. It is a fine thing, and it is easy to damage its quality when bumped and vibrated. Therefore, when handling, the action should be slow and do not cause collision to tip over. And make sure that the container is well sealed to prevent leakage. If it involves long-distance transportation, it is necessary to consider carefully and strictly monitor the change of temperature and humidity on the way. If there is any danger, it should be treated immediately.
Furthermore, this thing may be in danger of offending other things. When storing and transporting, it must not be co-located with strong oxidants, strong acids and alkalis, etc., to prevent reactions, deterioration, or even danger.
In addition, operators also need to strictly abide by the procedures and adapt protective equipment, such as gloves, goggles, etc., to avoid injury. And the place of storage and transportation should be prepared with corresponding emergency materials. If there is a leak, it can be dealt with immediately to avoid major disasters. In short, in the storage and transportation of 3-hydroxyethyl aminonaphthalene, we must be careful and follow the rules to ensure its stability and safety.