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Home Products Disodium 2,2'-(E)-Ethene-1,2-Diylbis(5-{[4-Morpholin-4-Yl-6-(Phenylamino)-1,3,5-Triazin-2-Yl]Amino}Benzenesulfonate)

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Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

Disodium 2,2'-(E)-Ethene-1,2-Diylbis(5-{[4-Morpholin-4-Yl-6-(Phenylamino)-1,3,5-Triazin-2-Yl]Amino}Benzenesulfonate)

Specifications

HS Code	483729
Chemical Name	Disodium 2,2'-(E)-Ethene-1,2-Diylbis(5-{[4-Morpholin-4-Yl-6-(Phenylamino)-1,3,5-Triazin-2-Yl]Amino}Benzenesulfonate)

As an accredited Disodium 2,2'-(E)-Ethene-1,2-Diylbis(5-{[4-Morpholin-4-Yl-6-(Phenylamino)-1,3,5-Triazin-2-Yl]Amino}Benzenesulfonate) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	1 kg of Disodium 2,2'-(E)-ethene-1,2 -diylbis … packaged in sealed, chemical - resistant bags.
Storage	Store “Disodium 2,2'-(E)-Ethene-1,2-Diylbis(5-{[4-Morpholin - 4 - Yl - 6 - (Phenylamino)-1,3,5-Triazin-2-Yl]Amino}Benzenesulfonate)” in a cool, dry place away from heat sources. Keep it in a well - sealed container to prevent moisture and air exposure which could potentially lead to chemical degradation. Avoid storing near incompatible substances.
Shipping	Disodium 2,2'-(E)-ethene - 1,2-diylbis(5-{[4 - morpholin - 4 - yl - 6-(phenylamino)-1,3,5 - triazin - 2 - yl]amino}benzenesulfonate) will be shipped in sealed, corrosion - resistant containers to prevent leakage, ensuring safe transit in accordance with chemical shipping regulations.

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Disodium 2,2'-(E)-Ethene-1,2-Diylbis(5-{[4-Morpholin-4-Yl-6-(Phenylamino)-1,3,5-Triazin-2-Yl]Amino}Benzenesulfonate)

General Information

Historical Development

The historical development of the chemical substance Disodium 2,2 '- (E) -Ethene-1,2-Diylbis (5- {[4-Morpholin-4-Yl-6- (Phenylamino) -1,3,5-Triazin-2-Yl] Amino} Benzenesulfonate)
Taste the way of chemistry, with each passing day, the research of substances, each has its own source. Today there is Disodium 2,2' - (E) -Ethene-1,2-Diylbis (5- {[4-Morpholin-4-Yl-6- (Phenylamino) -1,3,5-Triazin-2-Yl] Amino} Benzenesulfonate) This substance, at the beginning, researchers in the vast field of chemistry, explore its nature, starting with the deduction of theory, and expect to gain something.
After that, the road of experiment, many hardships, the adjustment of formula, the control of conditions, all need to be fine. After years of work, the process has gradually refined, and the output has begun to rise. Its use in industry and scientific research has also gradually shown its ability, either adding color to materials or assisting experiments. From this perspective, the development of this substance is the fruit of unremitting research by researchers, and it is also a sign of progress in the field of chemistry.

Product Overview

Today there is a substance called Disodium 2,2 '- (E) -Ethene-1,2-Diylbis (5- {[4-Morpholin-4-Yl-6- (Phenylamino) -1,3,5-Triazin-2-Yl] Amino} Benzenesulfonate). This substance is the object of chemical research. Its structure is unique and it is cleverly connected by many atomic groups. Among them, it contains specific nitrogen heterocycles, benzene rings and sulfonic acid groups. Looking at its composition, the interaction of each part gives it unique chemical properties. Or because of its stable structure, it can exhibit unique reactivity in a specific reaction environment. Although its name is complex, for our chemical researchers, in-depth exploration of its properties and applications may lead to new opportunities in the fields of materials, medicine, etc., to promote the advancement of chemical techniques and bring benefits to the world.

Physical & Chemical Properties

Today there is a substance called Disodium 2,2 '- (E) -Ethene-1,2-Diylbis (5- {[4-Morpholin-4-Yl-6- (Phenylamino) -1,3,5-Triazin-2-Yl] Amino} Benzenesulfonate). Its physical and chemical properties are quite critical. The appearance of this substance may have a specific color state, or it is a powder, or it is in the shape of a crystal. Its solubility varies in water and organic solvents. In water, it may be soluble or slightly soluble, which is related to the characteristics of its molecular structure. Its stability cannot be ignored, and it may remain stable or change easily under different temperatures and humidity environments. In terms of chemical activity, because of the functional groups it contains, it can react with specific reagents and participate in various chemical processes. It has potential uses in the fields of industry and scientific research.

Technical Specifications & Labeling

Today there is a product named Disodium 2,2 '- (E) -Ethene-1,2-Diylbis (5- {[4-Morpholin-4-Yl-6- (Phenylamino) -1,3,5-Triazin-2-Yl] Amino} Benzenesulfonate). In this product, the process specification and identification (product parameters) are the most important.
On the process specification, the method of preparation needs to be refined, and the raw materials must be selected, which must be pure and free of impurities; to the reaction conditions, such as temperature, pressure, time, etc., all need to be precisely controlled to ensure that the reaction is smooth and the product is pure.
In terms of identification (product parameters), its chemical composition and physical properties, such as color, odor, melting point, boiling point, etc., and the purity geometry and number of impurities must also be clearly marked. In this way, the process specifications and identification (product parameters) of this product can be used for subsequent research and production.

Preparation Method

To prepare Disodium 2,2 '- (E) -Ethene-1,2-Diylbis (5- {[4-Morpholin-4-Yl-6- (Phenylamino) -1,3,5-Triazin-2-Yl] Amino} Benzenesulfonate) this compound, the preparation method, the raw materials and production process, reaction steps, catalytic mechanism is the key.
First select the appropriate raw materials, such as benzenesulfonic acid derivatives containing specific groups, compounds containing azine structures and reagents containing morpholine groups. Add the raw materials to the reaction kettle in a certain proportion to regulate the temperature, pressure and reaction time.
At the beginning of the reaction, under mild conditions, the benzenesulfonic acid derivatives and azine-containing structures are condensed to form intermediates. Then, add morpholine-based reagents and heat up to promote one-step reaction. The whole process requires precise temperature control and timely stirring to ensure uniform reaction. And a high-efficiency catalyst is selected to reduce the activation energy of the reaction and increase the reaction rate. After multi-step reaction, separation and purification, the target product can be obtained.

Chemical Reactions & Modifications

Today, there is a substance named Disodium 2,2 '- (E) -Ethene-1,2-Diylbis (5- {[4-Morpholin-4-Yl-6- (Phenylamino) -1,3,5-Triazin-2-Yl] Amino} Benzenesulfonate). As a chemical researcher, I often study the reaction and modification of this chemical.
Looking at the reaction, under a specific temperature, pressure and catalyst, the change of its chemical bond is quite critical. Either broken or connected, it all affects its properties. If it is touched by a reagent, or replaced by a replacement, the group is translocated, and its properties also change.
As for modification, you can add other groups to adjust its hydrophilic and lipophilic properties, or increase its stability to make it more suitable in different environments. Or change its structure, change its crystal form, and adjust its degree of melting and boiling. It is hoped that this chemical can be used in the fields of medicine and materials to develop its growth and be used by the world.

Synonyms & Product Names

A chemical substance named Disodium 2,2 '- (E) -Ethene-1,2-Diylbis (5- {[4-Morpholin-4-Yl-6- (Phenylamino) -1,3,5-Triazin-2-Yl] Amino} Benzenesulfonate). The same name and trade name of this substance are related to chemical research and practical application.
In past chemical investigations, the same substance was often referred to by different regions, research groups or application scenarios. This substance is no exception. The same name reflects the development and communication of chemical cognition at that time. Either due to the gradual deepening of structural analysis, or due to the need to distinguish it from other compounds, the same name came into being.
As for the trade name, it is adopted by the merchant during marketing activities to highlight the characteristics, uses or attract consumers of the product. The trade name of this substance must be closely related to the specific use and performance advantages of the product in the chemical industry, but its specific details need to be further investigated in the old paper pile.

Safety & Operational Standards

Today there is a thing called "Disodium 2,2 '- (E) -Ethene-1,2-Diylbis (5- {[4-Morpholin-4-Yl-6- (Phenylamino) -1,3,5-Triazin-2-Yl] Amino} Benzenesulfonate) ". In the field of my chemical research, its safety and operating standards are of paramount importance.
The operation of this thing needs to be in a well-ventilated place. If it is blocked in an occluded place, its volatile substances may accumulate in the space, which may cause respiratory discomfort or even other hidden dangers. In addition, the operator must wear protective equipment, such as gloves, goggles, etc. Gloves need to be resistant to chemical corrosion, which can prevent this object from contacting the skin and prevent it from hurting the skin; goggles can protect the eyes and prevent this object from splashing into the eyes and causing damage to the eyes.
When storing, choose a dry and cool place. If the environment is humid, this object may change its properties due to moisture; if the temperature is too high, it may also cause its chemical changes, damage its quality, or even lead to safety.
Dispose of the waste of this object in accordance with regulations. Do not discard it at will to prevent pollution of the environment. After collection, hand it over to a professional treatment agency and handle it according to regulations to ensure the safety of the environment.
In short, in the research operation of "Disodium 2,2 '- (E) -Ethene-1,2-Diylbis (5- {[4-Morpholin-4-Yl-6- (Phenylamino) -1,3,5-Triazin-2-Yl] Amino} Benzenesulfonate) ", strict adherence to safety and operating standards can ensure the smooth progress of the research and the safety of personnel and the environment.

Application Area

Today there is a thing called Disodium 2,2 '- (E) -Ethene-1,2-Diylbis (5- {[4-Morpholin-4-Yl-6- (Phenylamino) -1,3,5-Triazin-2-Yl] Amino} Benzenesulfonate). This thing is quite useful in many fields.
In the dyeing and weaving industry, it can be used as a coloring aid to make the fabric color fresh and lasting, uniform and bright, and improve the quality of the fabric. In the field of imaging, it helps to present the image clearly, making the resulting image delicate and realistic, with details. In the process of scientific research, it can provide assistance for experimental exploration, assist accurate analysis, and promote research progress. This is the scope of its application, which shows that it has an indispensable position in all kinds of affairs, and it is actually an extraordinary utility.

Research & Development

Today there is a product named Disodium 2,2 '- (E) -Ethene-1,2-Diylbis (5- {[4-Morpholin-4-Yl-6- (Phenylamino) -1,3,5-Triazin-2-Yl] Amino} Benzenesulfonate). I am a chemical researcher, focusing on the research and development of this product.
After long-term research, its properties and structure have been investigated in detail. Its molecular structure is exquisite and its characteristics are unique, and it has great potential in many fields. We use rigorous methods to repeatedly experiment to understand the best way to apply it.
Although the process is difficult and the problems are frequent, we are unremitting. It is hoped that the research results will promote the progress of this chemical in the fields of industry, medicine, etc., so that it can benefit the world, contribute to the development of mankind, and achieve a career.

Toxicity Research

This substance is now being studied under the name Disodium 2,2 '- (E) -Ethene-1,2-Diylbis (5- {[4-Morpholin-4-Yl-6- (Phenylamino) -1,3,5-Triazin-2-Yl] Amino} Benzenesulfonate). It is essential to study its toxicity. Examine its properties in detail to understand its impact on all things. Although the chemical structure of this substance is a little complicated, the study of toxicity should not be slack. It is necessary to strictly test, observe its response to other substances, and observe its changes in different environments. If toxicity exists, it must be carefully investigated to understand the depth and depth of its harm. Let everyone know the details and use it carefully to prevent disasters. In this way, it is essential for toxicity research, which can ensure safety and promote the progress of the chemical industry.

Future Prospects

Today there is a thing called Disodium 2,2 '- (E) -Ethene-1,2-Diylbis (5- {[4-Morpholin-4-Yl-6- (Phenylamino) -1,3,5-Triazin-2-Yl] Amino} Benzenesulfonate). Our generation uses chemistry to study it and look forward to its future, full of expectations.
This material has unique properties, or it has emerged in the field of materials, serving as the basis for new materials, adding new strength to the construction of buildings and artifacts. Or in the field of medicine, it can develop unique capabilities to help heal diseases and remove diseases for the common people.
Although the road ahead is uncertain, we chemical researchers must devote all our efforts to exploring its mysteries, looking forward to the future, so that this substance will bloom brilliantly, benefit the world, and live up to our expectations for the future.

Where to Buy Disodium 2,2'-(E)-Ethene-1,2-Diylbis(5-{[4-Morpholin-4-Yl-6-(Phenylamino)-1,3,5-Triazin-2-Yl]Amino}Benzenesulfonate) in China?

As a trusted Disodium 2,2'-(E)-Ethene-1,2-Diylbis(5-{[4-Morpholin-4-Yl-6-(Phenylamino)-1,3,5-Triazin-2-Yl]Amino}Benzenesulfonate) manufacturer, we deliver: Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements. Technical Excellence: Precision-engineered solutions backed by R&D expertise, from formulation to end-to-end delivery. Whether you need industrial-grade quantities or specialized customizations, our team ensures reliability at every stage—from initial specification to post-delivery support.

Frequently Asked Questions

As a leading Disodium 2,2'-(E)-Ethene-1,2-Diylbis(5-{[4-Morpholin-4-Yl-6-(Phenylamino)-1,3,5-Triazin-2-Yl]Amino}Benzenesulfonate) supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

What is the chemical structure of 2,2 '- (E) -ethylene-1,2-diylbis (5- {[4-morpholine-4-yl-6- (phenylamino) -1,3,5-triazine-2-yl] amino} sodium benzenesulfonate)?

I look at what you said about "2,2 '- (E) -ethylene-1,2-diylbis (5- {[4-pyridine-4-yl-6- (benzyloxy) -1,3,5-triazine-2-yl] benzyloxy} rhodium benzoate) ", which is the name of the chemical substance. In order to know its chemical structure, it is necessary to analyze the information contained in this naming.
"2,2' - (E) -ethylene-1,2-diyl", indicating that this structure contains a vinyl group and is of the E configuration. The two ends of this vinyl group are connected to other groups.
"Bis (5- {[4-pyridyl-4-yl-6- (benzyloxy) -1,3,5-triazine-2-yl] benzyloxy} rhodium benzoate) ", this section describes complex groups linked to vinyl groups. Among them, benzoic acid is the basic structural unit, and a complex substituent is connected at the 5th position. This substituent is composed of a benzyloxy group connected to a triazine group containing a pyridyl group and a benzyloxy group. Moreover, the entire structure is combined with rhodium.
In summary, the structure of this chemical substance is based on the E-configuration vinyl group as a bridge, and the two ends are connected to the rhodium benzoate unit containing specific substituents. Although it is difficult to describe its precise spatial structure in text, its basic connection and components have been outlined. To determine the chemical structure, it is still necessary to use professional chemical drawing software to intuitively and accurately present its three-dimensional spatial form. This only derives the approximate plane structure according to the naming convention.

What are the uses of 2,2 '- (E) -ethylene-1,2-diylbis (5- {[4-morpholine-4-yl-6- (phenylamino) -1,3,5-triazine-2-yl] amino} sodium benzenesulfonate)?

2%2C2%27-%EF%BC%88E%EF%BC%89-%E4%B9%99%E7%83%AF-1%2C2-%E4%BA%8C%E5%9F%BA%E5%8F%8C%EF%BC%885-%7B%5B4-%E5%90%97%E5%95%89-4-%E5%9F%BA-6-%EF%BC%88%E8%8B%AF%E6%B0%A8%E5%9F%BA%EF%BC%89-1%2C3%2C5-%E4%B8%89%E5%97%AA-2-%E5%9F%BA%5D%E6%B0%A8%E5%9F%BA%7D%E8%8B%AF%E7%A3%BA%E9%85%B8%E9%92%A0%EF%BC%89%EF%BC%8C%E5%85%B6%E5%90%8D%E7%A7%B0%E5%A4%8D%E6%9D%82%EF%BC%8C%E5%85%B6%E5%9C%A8%E5%8C%BB%E8%8D%AF%E3%80%81%E5%8C%96%E5%B7%A5%E7%AD%89%E9%9D%A2%E5%90%91%E5%85%88%E8%BF%87%E7%94%A8%E5%9C%BA%E5%9D%97%E5%AE%8C%E5%85%A8%E3%80%82
** 1. Pharmaceutical field **
- ** Anti-cancer research **: This type of compound may have potential anti-cancer activity. Its condensation, medium-specific groups, groups, such as ethylene groups, benzene rings, and related substitution groups, or groups, can interact with specific target molecules within cancer cells. For example, by blocking the growth of cancerous cells, signal, pathway, off-key, egg white matter, inhibit the proliferation and spread of cancerous cells.
- ** Inflammation regulation **: It may also have an impact on inflammation, reaction, production, response. With the help of molecules, condensation, compatibility with inflammatory mediator receptors in vivo, regulation of inflammatory mediators, release, and activity, so as to play a certain anti-inflammatory role, or, can be applied to, rheumatoid, arthritis, enteritis, etc., inflammation, treatment of diseases.
** 2. Chemical industry **
- ** Catalyst ligand **: The compound can be used as a catalyst ligand due to its special condensation. In some organic synthesis and reaction catalysts, the combination of metal catalysts can change the electron cloud, distribution, and spatial structure of catalysts, improving the activity and selectivity of catalysts. For example, in carbon-carbon bond formation reactions, it helps to more efficiently synthesize organic compounds with specific structures.
- ** Material modification **: In Materials Science, it can be used for the modification of materials. Introduce it into a polymer material, by means of its interaction with the polymer segment, improve the material's physical properties, such as improving the thermal stability, mechanical strength of the material, or change the material's surface properties, so that the material is more suitable for specific application scenarios, such as aviation, aviation Sky, electronic products, etc., domain, higher requirements for material properties, field combination.

How safe is 2,2 '- (E) -ethylene-1,2-diylbis (5- {[4-morpholine-4-yl-6- (phenylamino) -1,3,5-triazine-2-yl] amino} sodium benzenesulfonate)?

The current name is "2,2 '- (E) -ethylene-1,2-diylbis (5- {[4-pyridine-4-yl-6- (benzyloxy) -1,3,5-triazine-2-yl] oxy} cobalt benzoate) ", and its safety needs to be reviewed in detail.
This substance has a complex structure and contains special groups. Pyridyl groups have certain activities, which may involve chemical reactivity and potential toxicity. Triazine structure may have sensitizing effects on living organisms under certain circumstances. Although benzyloxy groups are commonly found in organic compounds, they may affect the penetration and metabolic pathways of substances in the whole molecule. The cobalt benzoate part, when cobalt ions are in high concentrations, may interfere with the cell function and enzyme activity of organisms.
Looking at the synthesis process, if the purity of the raw materials is insufficient, the reaction conditions are not precisely controlled, or impurities are generated, increasing safety risks. During storage, temperature, humidity, light and other factors are also critical. Improper conditions may cause the substance to decompose and deteriorate, resulting in higher-risk products.
If this substance is used in industry, in the production process, workers' exposure risks need to be considered, and protective measures must be comprehensive to avoid inhalation and exposure. If it involves environmental emissions, its degradability and fate in water, soil, and atmosphere need to be clarified to prevent biological accumulation and ecological hazards.
In summary, the safety of this substance should be carefully investigated from multiple aspects, including structural analysis, synthesis and storage conditions, use scenarios and environmental impact, etc., to ensure that it does not pose a significant hazard to the human body and the environment during production, use and disposal.

What are the physical and chemical properties of 2,2 '- (E) -ethylene-1,2-diylbis (5- {[4-morpholine-4-yl-6- (phenylamino) -1,3,5-triazine-2-yl] amino} sodium benzenesulfonate)?

2%2C2%27-%EF%BC%88E%EF%BC%89-%E4%B9%99%E7%83%AF-1%2C2-%E4%BA%8C%E5%9F%BA%E5%8F%8C%EF%BC%885-%7B%5B4-%E5%90%97%E5%95%89-4-%E5%9F%BA-6-%EF%BC%88%E8%8B%AF%E6%B0%A8%E5%9F%BA%EF%BC%89-1%2C3%2C5-%E4%B8%89%E5%97%AA-2-%E5%9F%BA%5D%E6%B0%A8%E5%9F%BA%7D%E8%8B%AF%E7%A3%BA%E9%85%B8%E9%92%A0, this compound has the following physical and chemical properties:
From the perspective of physical properties, it has a certain melting point and boiling point. Due to the interaction between atoms in the molecular structure, it is endowed with specific thermal stability. The degree of molecular arrangement and the magnitude of intermolecular forces determine the phase transition at a specific temperature. Generally speaking, it contains a variety of complex groups, which enhances the intermolecular forces, and the melting point and boiling point are relatively high.
In terms of solubility, the compound contains polar groups, such as phenolic hydroxyl groups, etc., so it has a certain solubility in polar solvents (such as water and alcohols). However, the overall structure of the molecule is large and complex, and it contains more non-polar parts. The solubility in non-polar solvents (such as alkanes) may be limited.
From the theory of chemical properties, its carbon-carbon double bond can undergo an addition reaction. If it is combined with halogen elements, hydrogen halide and other electrophilic reagents, the double bond π electron cloud is attacked by electrophilic reagents, and the addition occurs to generate new compounds, whereby the molecular structure can be modified.
Phenolic hydroxyl groups are acidic. Although the acidity is weak, they can react with bases to form salts. This property enables the compound to participate in acid-base neutralization related chemical reactions, and the phenolic hydroxyl groups are easily oxidized. In case of strong oxidants, oxidation reactions can occur, resulting in changes in the structure of the phenolic hydroxyl groups and affecting the overall properties of the compounds.
In addition, the benzene ring contains multiple substituents, which are affected by the electronic effect of the substituents. The activity of the benzene ring changes, and substitution reactions can occur, such as halogenation, nitrification, and sulfonation. It has important applications in the field of organic synthesis, which can introduce more different groups and expand the direction of compound derivatization.

What is the production method of 2,2 '- (E) -ethylene-1,2-diylbis (5- {[4-morpholine-4-yl-6- (phenylamino) -1,3,5-triazine-2-yl] amino} sodium benzenesulfonate)?

2%2C2%27-%EF%BC%88E%EF%BC%89-%E4%B9%99%E7%83%AF-1%2C2-%E4%BA%8C%E5%9F%BA%E5%8F%8C%EF%BC%885-%7B%5B4-%E5%90%97%E5%95%89-4-%E5%9F%BA-6-%EF%BC%88%E8%8B%AF%E6%B0%A8%E5%9F%BA%EF%BC%89-1%2C3%2C5-%E4%B8%89%E5%97%AA-2-%E5%9F%BA%5D%E6%B0%A8%E5%9F%BA%7D%E8%8B%AF%E7%A3%BA%E9%85%B8%E9%92%A0%EF%BC%89, the manufacturing method of this product is very complicated.
First of all, all kinds of raw materials need to be prepared. The selection of raw materials must be accurate, and impurities must be removed to ensure the quality of the finished product. Among them, the key raw materials should be aromatic compounds with specific structures, and they need to be carefully pretreated or substitution reactions to make them have suitable activities.
The reaction starts, and an appropriate amount of solvent is added to the special reactor to create a suitable reaction environment. With precise temperature control device, the temperature in the kettle is constant in a specific range, usually about [X] degrees Celsius. This temperature is obtained through repeated tests, which can promote the reaction to proceed efficiently and smoothly.
The pretreated raw materials are slowly added to the kettle in a specific proportion and in a specific order. During this period, a stirring device is required to mix the materials evenly to facilitate a sufficient reaction. At the same time, a specific catalyst is added, and the dosage is accurate to the milligram level to accelerate the reaction process and improve the yield.
During the reaction process, closely monitor the reaction parameters, such as temperature, pressure, and concentration of reactants. According to the monitoring results, fine-tune the reaction conditions in a timely manner. When the reaction reaches the desired level, the reaction is terminated by a specific method to prevent the deterioration of the product due to excessive reaction.
After the product is generated, it needs to go through multiple separation and purification steps. First, solid impurities are removed by filtration, centrifugation, etc. Extraction, distillation and other operations are carried out to purify the product and obtain high-purity 2%2C2%27-%EF%BC%88E%EF%BC%89-%E4%B9%99%E7%83%AF-1%2C2-%E4%BA%8C%E5%9F%BA%E5%8F%8C%EF%BC%885-%7B%5B4-%E5%90%97%E5%95%89-4-%E5%9F%BA-6-%EF%BC%88%E8%8B%AF%E6%B0%A8%E5%9F%BA%EF%BC%89-1%2C3%2C5-%E4%B8%89%E5%97%AA-2-%E5%9F%BA%5D%E6%B0%A8%E5%9F%BA%7D%E8%8B%AF%E7%A3%BA%E9%85%B8%E9%92%A0%EF%BC%89. Each process needs to be carefully controlled, and a little difference will cause the product to be impure, affecting its performance and application.