2% 2C4-diene-1-naphthol, that is, 2,4-divinyl-1-naphthol, this substance may not have been known to Huaxia when "Tiangong Kaiwu" was written, so I use today's knowledge to imitate the literary style of "Tiangong Kaiwu".
2,4-divinyl-1-naphthol is widely used in the field of organic synthesis. First, it can be a monomer for polymerization. Because its molecule contains divinyl and naphthol structures, vinyl is reactive and can be copolymerized with other monomers under suitable conditions through free radical polymerization, ionic polymerization, etc., to form a polymer with unique characteristics. These polymers may have excellent heat resistance, mechanical properties and optical properties, and have important applications in high-end materials, such as aerospace composites, electronic device packaging materials, etc.
Second, in organic optoelectronic materials, the naphthol structure endows it with unique photoelectric properties. It can be chemically modified to prepare organic Light Emitting Diode (OLED) materials, organic solar cell materials, etc. Due to its conjugate structure, it can effectively transfer charge and energy, improve the photoelectric conversion efficiency of devices, and provide a key foundation for the development of new optoelectronic materials.
Third, in the field of drug synthesis, the naphthalene ring and phenolic hydroxyl group of 2,4-divinyl-1-naphthol can be used as a check point for the introduction of other active groups. Through organic synthesis, compounds with biological activity can be constructed, or can be used as lead compounds. After optimization and modification, new drugs can be developed for the treatment and prevention of diseases.
Fourth, in the surface modification of materials, its reactivity can be used to graft it on the surface of materials, change the chemical and physical properties of the material surface, such as hydrophobicity, biocompatibility, etc., broaden the application range of materials, and have potential value in biomedical materials, environmental functional materials, etc.

2% 2C4-diene-1-naphthol is an organic compound with unique physical properties and great significance in many fields.
Its properties are white to light yellow crystalline powder, which is stable at room temperature and pressure. The melting point is between 113-117 ° C. This characteristic makes it change from solid state to liquid state under specific temperature conditions, which has a great impact on its processing in material synthesis, drug preparation, etc.
2% 2C4-diene-1-naphthol is slightly soluble in water, but easily soluble in organic solvents such as ethanol, ether, and chloroform. This solubility characteristic allows it to be dissolved and dispersed in chemical experiments and industrial production with the help of suitable organic solvents, so as to participate in various chemical reactions, or as a solute to prepare specific solution systems.
The compound also has a certain degree of volatility. Although the volatility is not strong, it will evaporate slowly in specific environments, such as high temperature and good ventilation. When storing and using, it is necessary to fully consider this property and take measures to seal and store it to prevent changes in content due to volatilization or other safety problems.
In addition, the stability of 2% 2C4-diene-1-naphthol may be affected by environmental factors such as light and air. Long-term light exposure or exposure to air, or chemical reactions such as oxidation, cause changes in its structure and properties. Therefore, during storage and use, attention should be paid to avoiding light and sealing to ensure the stability of its quality and performance.

The synthesis methods of 2% 2C4-diene-1-naphthol can be divided into chemical synthesis methods and biological synthesis methods.
One of the chemical synthesis methods is the Diels-Alder reaction. This reaction requires conjugated dienes and bienes, and the two undergo [4 + 2] cycloaddition reaction. With suitable conjugated dienes and naphthalene-containing cyclobienes, under suitable temperature and catalyst, the intermediate containing the target structure can be obtained, and then the subsequent functional group transformation can obtain 2% 2C4-diene-1-naphthol. The advantage is that the reaction steps are relatively clear and the yield is considerable; the disadvantage is that the selection of raw materials is limited and some reaction conditions are harsh.
The second is the Friedel-Crafts reaction. Naphthalene derivatives and suitable alkenylation reagents can be selected. Under the action of Lewis acid catalyst, an electrophilic substitution reaction occurs, an alkenyl group is introduced, and then the reaction conditions and steps are adjusted to achieve specific position alkenylation and obtain the target product. The advantage of this method is that the selectivity of the reaction check point can be regulated; the disadvantage is that the catalyst has high requirements on the reaction environment and the post-treatment is cumbersome.
In the biosynthesis method, the catalysis is mainly assisted by microorganisms or enzymes. Some microbial enzymes can catalyze specific substrates to generate 2% 2C4-diene-1-naphthol through a series of biochemical reactions. With specific bacteria or fungi, a suitable substrate and culture environment are provided, and key enzymes may be produced during microbial metabolism to promote substrate transformation. This method is green and environmentally friendly, and the conditions are mild; however, the biological system is complex, and the conditions for cultivating microorganisms are difficult to precisely control, and the yield is often unstable.

When storing and transporting 2% 2C4-diethyl-1-naphthol, the following key points should be paid attention to.
First, when storing, the warehouse must be kept cool and dry. Due to its nature, it is susceptible to temperature and humidity interference. Excessive temperature or excessive humidity may cause it to deteriorate. If it is in a high temperature environment, the substance may accelerate the chemical reaction, causing its chemical structure to change and impairing its efficiency; while the humid environment is prone to moisture, which affects the purity and quality.
Second, it is necessary to ensure that the storage location has good ventilation conditions. This substance may emit certain odors or volatile components. Good ventilation can discharge these substances in time to prevent accumulation in a limited space, and then avoid potential safety risks, such as explosion and poisoning.
Third, during storage, keep away from fire and heat sources strictly. 2% 2C4-diethyl-1-naphthol may be flammable. In case of open flames and hot topics, it is easy to cause combustion or even explosion. Therefore, fireworks are strictly prohibited near the storage place, and heat sources must also be strictly controlled.
Fourth, when transporting, the packaging must be tight and firm. Use suitable packaging materials to ensure that the packaging will not be damaged due to collision and extrusion during transportation, and prevent material leakage. Once it leaks, it will not only cause material waste, but also may pollute the environment and pose a hazard to surrounding organisms and personnel.
Fifth, the appropriate type of transportation vehicle should be selected. For such chemical substances, special vehicles for transporting dangerous chemicals should be used, and the vehicles should be equipped with corresponding safety facilities and emergency treatment equipment to deal with various situations that may emerge during transportation.
Sixth, transportation personnel must undergo professional training. Familiar with the characteristics, dangers and emergency treatment methods of 2% 2C4-diethyl-1-naphthol, once a problem occurs during transportation, they can respond quickly and properly to minimize the harm.

2% 2C4-diene-1-naphthonitrile, the price of this product in the city is difficult to determine, due to many reasons.
The price of Guanfu Chemical is the main reason for the price of raw materials. If the raw materials required for its preparation are easy and affordable, the price of 2% 2C4-diene-1-naphthonitrile may also be close to the people. On the contrary, if the raw materials are rare, it is not easy to find, and the price will be expensive.
The simplicity of the process is also related to its price. If the preparation method is simple, the energy consumption is low, and the manpower is saved, the cost will decrease and the price will also decrease. However, if the process is complicated, exquisite equipment is required, and there are many steps, the cost will be high, and the price will also rise.
The supply and demand of the city is also the key. If there are many seekers for this product, it is widely used, but the supply is insufficient, the price will rise. If there is an oversupply, the city will be flooded, and the price will go down.
There is also competition in the market. If there are many producers and the competition is intense, the price may drop because of it, and it will compete for customers. If there is only one company, there is no semicolon, and the price may be determined by it.
According to the usual theory, if 2% 2C4-diene-1-naphthalonitrile is for ordinary industrial use, and the raw materials are easy to obtain, the process is not complicated, the price per unit may be between tens and hundreds of dollars. If it is a fine chemical product, the requirements for purity are extremely high, or the raw materials are scarce and the process is complicated, the price may exceed a thousand gold, or even more expensive. However, this is a rough estimate, and the actual price shall be subject to the real-time situation in the market.