The main use of 4-2-pentenotrienomethoxyphenyl is in the field of chemical products.
In the process of transportation, it has antioxidant properties. These substances can trap cytochrome, block the damage of its cells and biomacromolecules such as DNA, proteins, and lipids. Therefore, it can be used in the research of anti-aging substances. Aging is due to the process of oxidation-induced cytochrome fatigue, and 4-2-pentenotrienomethoxyphenyl has its antioxidant properties, which may extend the normal function of cytochrome. And it is also effective in the control of inflammation. Inflammation is the common pathological basis of many diseases. This compound may be able to reduce the cellular pathway of the inflammatory phase and inhibit the release of inflammatory factors, so it can be used in anti-inflammatory compounds.
In the field of chemical products, its antioxidant properties are also significant. Can be added to the product to resist skin oxidation. In daily environments, UV and pollutants cause skin aging, such as skin formation and uneven color. Chemicals containing this ingredient can protect the skin from this harm and protect the skin from light. And because of its anti-inflammatory properties, it is also used in sensitive skin products to reduce inflammation and relieve inflammation.
In addition, 4-2-pentenotriene methoxyphenyl has important uses for its antioxidant and anti-inflammatory properties, and is also a key ingredient in the field of research.

The physical properties of 4-hydroxyl-2-enotriene methoxyphenyl are as follows:
This substance is usually solid, and its outer surface or crystals are high, and the surface phase is low and the shape is low. Its melting properties are characteristic, and a specific value can be obtained from the determination of the precision. This solution is important in the determination and improvement of the material.
In terms of solubility, it exhibits a certain solubility in a specific solution. For some soluble solutions, such as ethanol and acetone, it may be partially soluble, but in non-soluble solutions, such as n-hexane, the solubility is reduced. This poor solubility can be used for the separation and reaction of the phase.
Its density is also one of the important physical properties. Through precise density determination methods, the amount of its position can be known. This density value provides an important basis for multi-process processes, such as material mixing, separation, etc.
In addition, the refractive index of this material also has its own characteristics.
In addition, the refractive index of this material also has its own characteristics.
In addition, the precise value of the refractive index can be used as one of the determinations of the degree and characteristics of the material.
In addition, its characterization varies in different environments. In the dry environment of normal and specialized materials, the phase can be maintained. However, if exposed to high temperature, oxidation or acid environments, it may cause biochemical reactions and cause changes in its compatibility.
The above physical properties are of paramount importance in various fields such as chemical synthesis, chemical research, and materials science, providing indispensable basic information for phase research and engineering.

The stability of the chemical properties of 4-hydroxy- 2-pentenotriene methoxybenzene is related to many aspects. This substance contains special functional groups, and the specific position of the molecular structure between the hydroxyl group and the methoxy group has a great influence on its properties.
The hydroxyl group has active chemical properties, which can cause the formation of hydrogen bonds, and has a significant impact on the intermolecular forces. Methoxy genes have electron charge properties, which can change the electron cloud density of the benzene ring, and then affect the electrophilic substitution reaction activity. Furthermore, the pentenotriene structure contains conjugated double bonds, which endow the molecule with unique optical and electronic properties.
However, its stability is also affected by environmental factors. In the air, or due to the oxidation of oxygen, the structure and properties change. When exposed to a specific pH medium, hydroxyl or methoxy groups or involved in acid-base reactions change the chemical structure. When the temperature rises, the thermal motion of the molecule intensifies, or the bond energy changes, leading to structural rearrangement or decomposition.
In general, the chemical properties of 4-hydroxy- 2-pentylenetriene methoxylbenzene are not absolutely stable. Under various conditions, or through chemical reactions, the structure and properties of 4-hydroxy- 2-pentylenetriene methoxylbenzene are changed. The stability needs to be determined comprehensively according to the specific environmental conditions and the reaction substrate.

There are many ways to prepare 4-hydroxy- 2-allylenetriene methoxybenzene. There are various ways to find the ancient combination of this substance.
First, benzene is used as the beginning, and a halogenated method is used to introduce a halogen atom on the benzene ring. The halogen atom can be chlorine, bromine and the like. Then, by nucleophilic substitution, the halogen atom is replaced by a methoxy group to obtain a benzene derivative containing a methoxy group. Later, by the method of allylation, an allyl group is introduced, and then by oxidation, hydroxyl is added at a suitable position to finally obtain the target 4-hydroxy- 2-allylenetriene methoxybenzene.
Second, select a benzene derivative with a suitable substituent as the initial material, or those with methoxy group in the benzene ring. First, the condensation reaction is used to interact with the reagent containing the allyl structure to form allyl-substituted benzene. Then, depending on the specific substituent situation, through a series of reactions such as oxidation and reduction, the substituent is precisely adjusted to achieve the purpose of introducing hydroxyl groups, so as to obtain 4-hydroxy- 2-allyl triene methoxybenzene.
Third, cyclic compounds can also be used as starting materials. Through complex reactions such as ring opening and rearrangement, the required carbon frame and functional group are gradually constructed. First, the structure containing methoxy and allyl was constructed by reaction, and then modified to make hydroxyl groups appear in a specific position at a timely time, and finally synthesized 4-hydroxy- 2-allyltriene methoxybenzene.
Each method has its own advantages and disadvantages. Depending on the ease of raw materials, reaction conditions, yield, and the number of side reactions, the appropriate method can be selected to efficiently prepare 4-hydroxy- 2-allyltriene methoxybenzene.

In today's market, the price of 4-hydroxy- 2-allyl triene methoxybenzene is difficult to determine. Its price often varies due to various reasons.
Looking at the source of the material, if the land produced is wide and abundant, its price may be inexpensive; if the source is narrow and thin, the price will be high. And the difficulty of getting it is also related to the price involved. If it is easy to harvest, the price will be flat; if it is difficult to harvest, the price will rise.
The clumsiness of the craftsmanship is also the main reason. Those who are skilled can turn less material into more, and their cost is saved and the price is low; those who are clumsy, the cost of material and production are less, and the price will be high.
In addition, the supply and demand of the city also affect its price. If there are many people in need and few people in supply, the price will skyrocket; if the supply exceeds the demand, the price will drop like a waterfall.
Furthermore, the changes of time and the leniency of the government are also related to the price. If the times are prosperous and the government is not harassed, the trade will be smooth and the price will be stable; if the times are bad and the government is complicated, the price may fluctuate.
Basically speaking, the price of this 4-hydroxy- 2-allyl triene methoxybenzene ranges from tens to hundreds of dollars per catty, and it is difficult to determine its fixed number. It depends on the above conditions.