2-[(4-{(Z)-[4-(Phenylamino)Phenyl][(4Z)-4-(Phenylimino)Cyclohexa-2,5-Dien-1-Ylidene]Methyl}Phenyl)Amino]Benzenesulfonic Acid

Lingxian Chemical

Specifications

HS Code

219051

Packing & Storage

Packing	1 kg pack of 2-[(4-{(Z)-[4-(Phenylamino)phenyl][(4Z)-4-(Phenylimino)cyclohexa - 2,5 - dien - 1 - ylidene]methyl}phenyl)amino]benzenesulfonic Acid.
Storage	Store 2-[(4-{(Z)-[4-(Phenylamino)phenyl][(4Z)-4-(Phenylimino)cyclohexa - 2,5 - dien - 1 - ylidene]methyl}phenyl)amino]benzenesulfonic acid in a cool, dry place. Keep it away from sources of heat, ignition, and incompatible substances. Store in a tightly sealed container to prevent moisture absorption and potential degradation.
Shipping	2 - [(4 - {(Z)-[4 - (Phenylamino)phenyl][(4Z)-4 - (Phenylimino)cyclohexa - 2,5 - dien - 1 - ylidene]methyl}phenyl)amino]Benzenesulfonic Acid is shipped in well - sealed, inert containers. Specific packaging adheres to chemical safety regulations to prevent spillage and ensure safe transit.

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2-[(4-{(Z)-[4-(Phenylamino)Phenyl][(4Z)-4-(Phenylimino)Cyclohexa-2,5-Dien-1-Ylidene]Methyl}Phenyl)Amino]Benzenesulfonic Acid

General Information

Historical Development

I tried to study a thing, and called it 2 - [ (4- { (Z) - [4- (Phenylamino) Phenyl] [ (4Z) -4 - (Phenylimino) Cyclohexa - 2,5 - Dien - 1 - Ylidene] Methyl} Phenyl) Amino] Benzenesulfonic Acid. The rise of this thing has gone through the years. At the beginning, people did not know its nature, but only explored a little. After a few years, the wise men worked hard to study its quality and its nature. Or in the study, immerse themselves in experiments; or in the classics, explore the root cause. Therefore, its mysteries gradually become clear and its uses are wide. From being little known to being valued by the academic community, the development of this substance is like a star gradually shining, blooming in the field of chemistry, opening up a new path for future research.

Product Overview

Today there is a substance called 2- [ (4- { (Z) - [4- (Phenylamino) Phenyl] [ (4Z) - 4- (Phenylimino) Cyclohexa - 2,5 - Dien - 1 - Ylidene] Methyl} Phenyl) Amino] Benzenesulfonic Acid. This substance has a delicate structure and a unique molecular structure. Looking at its formula, it contains a genus of benzene rings and is also intertwined with specific groups. On the benzene ring, amino groups, imino groups, etc. are cleverly connected to form a complex appearance. This substance may have unique properties and potential uses in the field of chemical research. The uniqueness of its structure, or the special chemical activity, can be used in many aspects such as organic synthesis and material science, adding new possibilities to the path of chemical exploration, for our generation to delve deeper into, understand its mysteries, and use its strengths.

Physical & Chemical Properties

There is a substance named 2 - [ (4- { (Z) - [4- (Phenylamino) Phenyl] [ (4Z) -4 - (Phenylimino) Cyclohexa - 2,5 - Dien - 1 - Ylidene] Methyl} Phenyl) Amino] Benzenesulfonic Acid. Its physical and chemical properties are very important. The color, state and taste of this substance are its external characteristics; its melting point, solubility, etc., are related to its physical properties. Chemically, the reaction with various reagents may be acid-base or have the ability to redox. We use chemical methods to explore its properties, hoping to clarify its essence, paving the way for future applications or the preparation of new compounds, and gaining insight into the laws of chemical reactions of this compound, in order to achieve a new level of chemical research.

Technical Specifications & Labeling

There is a thing called 2 - [ (4- { (Z) - [4- (Phenylamino) Phenyl] [ (4Z) -4 - (Phenylimino) Cyclohexa - 2,5 - Dien - 1 - Ylidene] Methyl} Phenyl) Amino] Benzenesulfonic Acid. To clarify its technical specifications and identification (product parameters), it is necessary to investigate in detail.
To observe the structure of this compound, it is necessary to study its molecular structure carefully, from the combination of benzene rings to the connection of imino groups, amino groups and other groups. In the technical specifications, the synthesis steps should be accurate, and the purity of the raw materials and the reaction conditions, such as temperature, pressure, and catalyst dosage, are all key.
In terms of identification, product parameters should be clearly identifiable. From the exact number of molecular weight to the characterization of chemical properties, such as solubility and stability, all need to be remembered in detail. In this way, this product can be properly used in the chemical industry to meet the requirements of technical specifications and labeling, and become a high-quality product.

Preparation Method

About 2- [ (4- { (Z) - [4- (phenylamino) phenyl] [ (4Z) -4- (phenylamino) cyclohexyl-2,5-diene-1-subunit] methyl} phenyl) amino] benzenesulfonic acid Preparation of 2- [ (4- { (Z) - [4- (phenylamino) phenyl] [ (4Z) -4- (phenylamino) cyclohexyl-2,5-diene-1-subunit] methyl} phenyl) amino] benzenesulfonic acid When benzene, aniline, etc. are taken as the initial materials to meet their chemical properties.
Preparation process, first of all, benzene and appropriate reagents, according to a specific method, after ingenious reaction, the intermediate product containing benzene ring is obtained. Then, aniline is involved in the reaction, and it is combined with the precursor in precise steps to form a key intermediate.
The reaction steps require temperature control and speed regulation, and proceed in sequence. Before the moderate temperature, lead the raw materials to touch each other, and wait for the reaction to be smooth and gradually adjust the conditions to make the reaction progress in the desired direction.
Catalytic mechanism, select the appropriate catalyst to promote the reaction rate and increase the yield of the product. By the effect of the catalyst, the intermolecular interaction is orderly, and the reaction process is accelerated, resulting in a pure 2 - [ (4- { (Z) - [4- (phenylamino) phenyl] [ (4Z) -4- (phenylimino) cyclohexyl - 2,5 - diene - 1 - subunit] methyl} phenyl) amino] benzene sulfonic acid product.

Chemical Reactions & Modifications

Today there is a thing called 2 - [ (4 - { (Z) - [4 - (Phenylamino) Phenyl] [ (4Z) - 4 - (Phenylimino) Cyclohexa - 2,5 - Dien - 1 - Ylidene] Methyl} Phenyl) Amino] Benzenesulfonic Acid. In the field of chemistry, we often study the reaction and modification of substances. The chemical reaction of this substance is related to its molecular structure and chemical properties.
Observe its structure, and each atomic group interacts to form a unique chemical activity. To change its properties, it is necessary to observe the reaction conditions, temperature, pressure, and catalyst. If a suitable catalyst is selected, it may be able to promote its specific reaction, change its chemical properties, and obtain the desired characteristics.
In a chemical reaction, the disconnection of its chemical bonds determines the properties of the product. Fine regulation of the reaction may make the product have better stability and solubility. Our chemical researchers always strive to explore their reactions and modifications, hoping to contribute to various fields and promote the progress of chemical technology.

Synonyms & Product Names

It is related to a compound whose name is 2 - [ (4 - { (Z) - [4 - (Phenylamino) Phenyl] [ (4Z) -4 - (Phenylimino) Cyclohexa - 2,5 - Dien - 1 - Ylidene] Methyl} Phenyl) Amino] Benzenesulfonic Acid. The synonyms and trade names of this substance are worth studying.
Guanfu chemical substances are synonymous, so they have different names and refer to the same thing. Yu Si compounds, their synonyms can help us to widely understand their names, or they have different names due to differences in regions or differences in research. As for the trade name, merchants often establish a unique name in order to recognize the differences between their things and to attract people's attention. The trade name of this compound should have its own unique meaning, or show its nature, or show its use.
Detailed study of this 2 - [ (4 - { (Z) - [4 - (Phenylamino) Phenyl] [ (4Z) -4 - (Phenylimino) Cyclohexa - 2,5 - Dien - 1 - Ylidene] Methyl} Phenyl) Amino] Benzenesulfonic Acid, the test of synonyms and trade names, in the way of chemical industry, it is really beneficial, which can show the traces of its spread, and also help users to accurately identify.

Safety & Operational Standards

In order to obtain stable and compliant 2 - [ (4 - { (Z) - [4 - (Phenylamino) Phenyl] [ (4Z) - 4 - (Phenylimino) Cyclohexa - 2,5 - Dien - 1 - Ylidene] Methyl} Phenyl) Amino] Benzenesulfonic Acid products, it is necessary to follow the safety and operation specifications.
First of all, in the preparation site, when the appropriate place is carefully selected, it needs to be well ventilated, away from fire and heat sources, to prevent unexpected risks. All kinds of utensils used must be clean and intact, and calibrated according to specific methods to ensure accuracy.
When operating, the operator should wear appropriate protective clothing, protective goggles, and gloves to guard against possible damage. When taking raw materials, the action should be slow and careful, and the raw materials should be measured accurately. Do not spill the raw materials. When the raw materials are compatible, they should be mixed slowly according to the established order, and must not be rushed. During the reaction process, the temperature, pressure, time and other factors must be closely monitored and regulated to make the reaction smooth.
After the reaction is completed, the separation and purification of the product should not be ignored. Choose the appropriate method to remove its impurities to ensure that the product is pure. When storing the product, place it in a dry and cool place and seal it properly to prevent its qualitative change.
All of these are essential for safety and operating standards. By following them, the product can be obtained, the disaster can be avoided, and the scientific research will be smooth.

Application Area

2 - [ (4 - { (Z) - [4 - (Phenylamino) Phenyl] [ (4Z) -4 - (Phenylimino) Cyclohexa - 2,5 - Dien - 1 - Ylidene] Methyl} Phenyl) Amino] Benzenesulfonic Acid This compound has a critical application field. In the field of dyes, it may give the fabric a brilliant color with its unique structure, and it has good light resistance and washable fastness, so that the fabric can still retain color and freshness over time. In pharmaceutical research and development, it may interact with biological targets due to specific chemical groups, showing potential pharmacological activity and helping to create new drugs. In the field of materials science, it is also expected to improve the surface properties of materials and enhance their adsorption and separation properties. Such diverse applications are waiting for us to explore in depth to maximize their value.

Research & Development

Yu has been dedicated to the research of chemical products for a long time. Recently researched 2 - [ (4 - { (Z) - [4 - (Phenylamino) Phenyl] [ (4Z) - 4 - (Phenylimino) Cyclohexa - 2,5 - Dien - 1 - Ylidene] Methyl} Phenyl) Amino] Benzenesulfonic Acid This product.
During the research process, its structure and characteristics were investigated in detail. This product has a unique structure, and its molecular composition contains specific groups, which interact with each other to affect its properties. After many experiments, the laws of changes in its physical and chemical properties were explored.
Our generation is well aware that research and development require rigorous practice. This product may have potential application value, such as in the fields of materials and medicine, and is expected to open up a new situation. In the future, we should make unremitting research to optimize the synthesis method and improve the quality, hoping to promote its wide application and contribute to the development of the chemical field.

Toxicity Research

Yu has been focusing on the study of poisons for a long time. Recently, he studied a product named 2- [ (4- { (Z) - [4- (Phenylamino) Phenyl] [ (4Z) - 4- (Phenylimino) Cyclohexa - 2,5 - Dien - 1 - Ylidene] Methyl} Phenyl) Amino] Benzenesulfonic Acid.
The toxicity of this product is the key to research. Its molecular structure is specific, or it affects many biochemical reactions in organisms. I have used ancient methods to observe its reaction with various reagents and observe its properties in different environments. After repeated tests, it was preliminarily found that it has inhibitory effect on specific cells and seems to interfere with cell metabolic pathways. However, the exact characterization of toxicity, such as the impact on the organism as a whole and the precise positioning of the target, still needs to be studied in depth. I should maintain a rigorous attitude and continue to explore, in order to clarify the full picture of toxicity of this substance and use it for future generations, either to avoid its harm or to take advantage of it.

Future Prospects

Today there is a thing named 2 - [ (4 - { (Z) - [4 - (Phenylamino) Phenyl] [ (4Z) -4 - (Phenylimino) Cyclohexa - 2,5 - Dien - 1 - Ylidene] Methyl} Phenyl) Amino] Benzenesulfonic Acid. As a chemical researcher, I often think about the future development of this thing. Although at present, its characteristics are gradually becoming apparent in various experiments, the unknown field is still wide.
I hope that in the future this compound may shine in the field of medicine. Its delicate structure may be able to fit the mechanism of the disease and help physicians find a cure for the disease. Or emerge in the field of materials and contribute to the creation of new materials. May our generation of scientific researchers work together to explore its potential, so that this compound will shine in the future, benefit the world, and develop the infinite possibilities of the future.

Frequently Asked Questions

2- [ (4- {[ (Z) - [4- (Phenylamino) Phenyl] [ (4Z) -4- (Phenylimino) Cyclohexa-2,5-Dien-1-Ylidene] Methyl} Phenyl) Amino] Benzenesulfonic Acid What is the chemical structure

The name of this organic compound is complex and difficult to understand. To know its chemical structure, we will have to analyze it.
The name "2 - [ (4 - { [ ( Z) - [4 - (Phenylamino) Phenyl] [ (4Z) - 4 - (Phenylimino) Cyclohexa - 2,5 - Dien - 1 - Ylidene] Methyl} Phenyl) Amino] Benzenesulfonic Acid" is composed of multiple parts.
First look at "Benzenesulfonic Acid", it can be seen that its main body is benzenesulfonic acid structure, and the benzene ring is connected with a sulfonic acid group (-SOH).
Look again at "2 - [ (4 - { [ ( Z) - [4 - (Phenylamino) Phenyl] [ (4Z) - 4 - (Phenylimino) Cyclohexa - 2,5 - Dien - 1 - Ylidene] Methyl} Phenyl) Amino]" This part is connected to a complex substituent at the 2-position of benzenesulfonic acid.
where " (4 - { [ ( Z) - [4 - (Phenylamino) Phenyl] [ (4Z) - 4 - (Phenylimino) Cyclohexa - 2,5 - Dien - 1 - Ylidene] Methyl} Phenyl) Amino", and has multiple structures. " ( 4 - { [ ( Z) - [4- (Phenylamino) Phenyl] "means that a 4- (anilinyl) phenyl group is connected at the 4-position of a structure;" [ (4Z) - 4- (Phenylimino) Cyclohexa - 2,5 - Dien - 1 - Ylidene] Methyl "represents a 4- (phenylimino) - 2,5 - cyclohexadiene - 1 - submethylmethyl structure with a specific configuration (4Z); they are jointly connected to a phenyl group, which in turn is connected to the 2 - position of benzenesulfonic acid through the amino group.
In short, this compound has a complex structure, consisting of a main body of benzenesulfonic acid and a complex substituent containing phenylamino, phenyliminocyclohexadiene, subunit methyl, etc. Each part is connected according to specific rules, forming a unique chemical structure.

2- [ (4- {[ (Z) - [4- (Phenylamino) Phenyl] [ (4Z) -4- (Phenylimino) Cyclohexa-2,5-Dien-1-Ylidene] Methyl} Phenyl) Amino] What are the physical properties of Benzenesulfonic Acid

2-%5B%284-%7B%5B%28Z%29-%5B4-%28Phenylamino%29Phenyl%5D%5B%284Z%29-4-%28Phenylimino%29Cyclohexa-2%2C5-Dien-1-Ylidene%5DMethyl%7DPhenyl%29Amino%5DBenzenesulfonic Acid, which is a more complex organic compound. Looking at its structure, it is composed of benzene sulfonic acid group, nitrogen-containing heterocyclic ring and multiple phenyl groups and other parts cleverly connected.
In terms of its physical properties, it is usually a solid state at room temperature and pressure. The cover is mostly van der Waals force and hydrogen bond interaction due to its strong intermolecular force. As for the color, or white to light yellow solid powder, this is related to the absorption and reflection characteristics of various groups in its molecular structure.
In terms of solubility, it has limited solubility in water because it contains hydrophobic groups such as benzene ring and a hydrophilic group such as sulfonic acid group. In polar organic solvents such as ethanol and acetone, the solubility may be slightly better. However, in non-polar organic solvents such as n-hexane, it is almost insoluble. This property is also due to the polar distribution of its molecules.
The melting point may be in a higher temperature range. Due to the complex molecular structure and diverse interactions between molecules, higher energy is required to overcome these forces and melt the crystal.
Its density is slightly larger than that of ordinary organic solvents, and it is also closely related to the molecular structure. The atoms in the molecule are closely arranged, resulting in a larger unit volume mass.
Overall, the physical properties of this compound are determined by its unique molecular structure, and the properties are related to each other, which affects its behavior in different environments.

2- [ (4- {[ (Z) - [4- (Phenylamino) Phenyl] [ (4Z) -4- (Phenylimino) Cyclohexa-2,5-Dien-1-Ylidene] Methyl} Phenyl) Amino] What is the main use of Benzenesulfonic Acid

2-%5B%284-%7B%5B%28Z%29-%5B4-%28Phenylamino%29Phenyl%5D%5B%284Z%29-4-%28Phenylimino%29Cyclohexa-2%2C5-Dien-1-Ylidene%5DMethyl%7DPhenyl%29Amino%5DBenzenesulfonic Acid is the name of a chemical substance, and its main uses are as follows:
This compound is used in the field of dyeing and weaving, and is often used as a dye. It can make fabrics look gorgeous, and with its special chemical structure, it can be closely linked to fabric fibers, resulting in firm dyeing. It is not easy to fade after sun exposure and washing. It is used in many fabrics, such as cotton, linen, silk, wool, etc., making fabrics colorful, bright and lasting.
In the field of scientific research, it can be used as a reagent for chemical research. Due to its unique molecular structure, it can be a key raw material for the synthesis of specific structural compounds in the field of organic synthetic chemistry, helping chemists explore new reaction paths and synthesis methods, and promoting the development of organic synthetic chemistry.
In the field of materials science, it may affect the surface properties of certain materials. By interacting with the surface of materials, the hydrophilicity, hydrophobicity, adsorption and other properties of materials can be improved, and then the application of materials in different scenarios can be broadened, such as in separation membrane materials, adsorption materials, etc. It may have potential uses.
In terms of biochemical analysis, due to its affinity or reactivity to specific biomolecules, it may be developed as a tool for detecting biomolecules, assisting biomedical researchers in gaining insight into biochemical processes in living organisms, disease diagnosis and other related matters.

2- [ (4- {[ (Z) - [4- (Phenylamino) Phenyl] [ (4Z) -4- (Phenylimino) Cyclohexa-2,5-Dien-1-Ylidene] Methyl} Phenyl) Amino] Benzenesulfonic Acid

The method for preparing 2 - [ (4- {[ (Z) - [4- (phenylamino) phenyl] [ (4Z) -4- (phenylamino) cyclohexyl-2,5-diene-1-subunit] methyl} phenyl) amino] benzene sulfonic acid, although the book "Tiangong Kaiwu" does not specify the specific method of preparation of this compound, it can be deduced from the ancient chemical process.
In the past, the preparation of sulfonic acid compounds often started with raw materials containing benzene rings. To obtain this target, you can first find benzene derivatives containing appropriate substituents. For example, the reaction of benzene compounds containing amino groups with benzene ring intermediates containing specific imino and methylene substitutions.
First, the raw material with the structure of (4- (phenylamino) phenyl) can be obtained by the nucleophilic substitution reaction of aniline and suitable halogenated benzene under the action of base and catalyst. Then (4- (phenylamino) cyclohexene-2,5-diene-1-subunit) methyl-substituted benzene derivatives can be obtained by the condensation reaction of cyclohexadiene derivatives with benzaldehyde derivatives and their imidating reagents under the catalysis of acid or base.
Under suitable conditions, such as in an organic solvent, catalyzed by a suitable base or acid, the nucleophilic substitution or condensation reaction occurs between the amino groups of the two and the corresponding active checking points to obtain a product containing the target intermediate structure.
Finally, the product is sulfonated to introduce benzenesulfonic acid groups. 2 - [ (4- {[ (Z) - [4- (phenylamino) phenyl] [ (4Z) -4- (phenylamino) cyclohexyl-2,5-diene-1-subunit] methyl} phenyl) amino] benzenesulfonic acid can be obtained by reacting with sulfonating reagents such as concentrated sulfuric acid and fuming sulfuric acid at an appropriate temperature. When operating, pay attention to the reaction temperature, reagent dosage and reaction time to determine the yield and purity.

2- [ (4- {[ (Z) - [4- (Phenylamino) Phenyl] [ (4Z) -4- (Phenylimino) Cyclohexa-2,5-Dien-1-Ylidene] Methyl} Phenyl) Amino] What is the market outlook for Benzenesulfonic Acid

I look at what you said "2 - [ (4 - {[ (Z) -4- (Phenylamino) Phenyl] [ (4Z) -4- (Phenylimino) Cyclohexa - 2,5 - Dien - 1 - Ylidene] Methyl} Phenyl) Amino] Benzenesulfonic Acid" This product has a complex and unpredictable market prospect.
In today's world, the use of chemical substances is related to people's livelihood. If this acid has unique properties, it may have strange uses in the fields of medicine and materials. If it can help medicine develop new prescriptions, treat intractable diseases, or make new materials, it must have a big market.
However, the road to enter the market is full of thorns. The first thing to do is to comply with all kinds of regulations, and to test that it is safe and harmless, before it can be allowed to circulate. Second, the competition will be fierce. There are many people in the world who study this. If you want to stand out, you must have excellent skills and exquisite methods.
Furthermore, the needs of the city are also impermanent. Changes in fashion and new innovations in technology can all be changed. If this acid cannot change according to the times and follow the needs of the city, although it has wonders, it may not be easy to sell.
Therefore, if you want to know its definite future, you must carefully examine its nature, its use, the strictness of the regulations, the intensity of competition, and the changes in the needs of the market.