Products

Home Products Benzenesulfonicacid,((4-(Bis(4-((Sulfophenyl)Amino)Phenyl)Methylene)-2,5-Cycl

Sulfonic Acid Series Sulfamic Acid Series Guanidine Series

Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

Benzenesulfonicacid,((4-(Bis(4-((Sulfophenyl)Amino)Phenyl)Methylene)-2,5-Cycl

Specifications

HS Code

860321

As an accredited Benzenesulfonicacid,((4-(Bis(4-((Sulfophenyl)Amino)Phenyl)Methylene)-2,5-Cycl factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	1kg of Benzenesulfonic acid derivative packaged in sealed, corrosion - resistant containers.
Storage	Store “Benzenesulfonic acid,((4-(Bis(4-((Sulfophenyl)Amino)phenyl)Methylene)-2,5 -cycl” in a cool, dry area away from heat sources and direct sunlight. Keep it in a well - sealed container to prevent moisture absorption. Isolate it from incompatible substances like strong oxidizing agents and bases to avoid reactions which could pose hazards or degrade the chemical.
Shipping	The chemical "Benzenesulfonicacid,..." should be shipped in containers suitable for hazardous chemicals. Ensure proper packaging to prevent leakage. Follow all relevant safety regulations during transportation.

Free Quote

Competitive Benzenesulfonicacid,((4-(Bis(4-((Sulfophenyl)Amino)Phenyl)Methylene)-2,5-Cycl prices that fit your budget—flexible terms and customized quotes for every order.

For samples, pricing, or more information, please call us at +8618136850665 or mail to sales7@alchemist-chem.com.

We will respond to you as soon as possible.

Tel: +8618136850665

Email: sales7@alchemist-chem.com

Benzenesulfonicacid,((4-(Bis(4-((Sulfophenyl)Amino)Phenyl)Methylene)-2,5-Cycl

General Information

Historical Development

Benzenesulfonic acid compounds, such as (4- (bis (4- (sulfophenyl) amino) phenyl) methylene) -2,5-ring...), have a long history. In the past, at the beginning of chemical research, such substances were admitted to the field of vision. In the early days, subject to technical and cognitive limitations, they were explored at a glance. However, with the passage of time and the advancement of science and technology, researchers have made breakthroughs in experimental means and analytical methods. From simple structural cognition to in-depth analysis of its chemical properties and reaction mechanism. This product has been widely used in many fields, from its initial niche research to its emergence in industry and scientific research. Its development process is like a long scroll that has been slowly spread out, witnessing the hardships and brilliance of chemical exploration.

Product Overview

A certain compound is called Benzenesulfonicacid, (4- (Bis (4- (Sulfophenyl) Amino) phenyl) Methylene) -2,5-Cycl. This substance is also exquisite in structure, based on benzene sulfonic acid, with the structure of aryl amines and sulfonic acid phenyl groups. Looking at its structure, it seems that there are rules to follow, and each group is related to each other. In terms of chemical properties, it may have the acid activity of sulfonic acid and some reactivity of aromatic amines. Due to the synergy of benzene ring and amine group, sulfonic acid group, etc., it may participate in various chemical reactions. And its unique ring structure may affect the spatial orientation and reaction check point of molecules. Although its properties have not been studied in detail, it is reasonable to infer that there must be considerable aspects in the field of chemical research, and its secrets may be explored in depth, or it may contribute to chemistry.

Physical & Chemical Properties

The name of a compound is "Benzenesulfonic acid, (4- (Bis (4- ((Sulfophenyl) Amino) Phenyl) Methylene) -2,5-Cycl". As a chemistry learner, I observe its physical and chemical properties. The morphology of this substance may be crystalline, white or nearly colorless, with a specific melting point and boiling point, which is related to the intermolecular force. Its solubility varies from different solvents, and there may be a certain solubility in polar solvents, due to the polar groups in the molecule.
Its chemical properties, benzenesulfonic acid group is acidic, and can neutralize with bases. The complex aromatic amine structure in the molecule makes it possible to participate in electrophilic substitution reactions under specific conditions, because its aromatic ring has the characteristics of electron cloud density distribution. This is determined by the molecular structure, and the structure and properties are closely related. By exploring it, it can be used in the fields of chemical engineering, materials, and so on.

Technical Specifications & Labeling

Regarding the technical specifications and identification (product parameters) of the product "Benzenesulfonicacid, ((4- (Bis (4- (Sulfophenyl) Amino) Phenyl) Methylene) -2,5-Cycl", our generation needs to explore in detail. The technical specifications of this product are related to its preparation process, material ratio, reaction conditions, etc. From the selection of raw materials, it is necessary to carefully screen to ensure that the purity is up to standard before it can be produced. At the time of reaction, temperature, duration, pressure and other conditions need to be precisely controlled, and the difference is very small.
As for the identification, when the product parameters are clearly marked, such as the proportion of ingredients, physical properties, chemical properties, etc. In this way, users can understand its performance and be handy when applying. These two, technical specifications and identification (product parameters), are the key to product quality, and we must treat them with caution and must not be negligent.

Preparation Method

To prepare Benzenesulfonicacid, (4- (Bis (4- ((Sulfophenyl) Amino) phenyl) Methylene) -2,5-Cycl products, the preparation method requires detailed investigation of raw materials and production processes, reaction steps and catalytic mechanisms.
Prepare the refined raw materials first, select the appropriate benzenesulfonicacid and nitrogen-containing aryl compounds, the purity of which is related to the quality of the product. In a clean reactor, put it in a precise ratio and dissolve it in an organic solvent. When heated to an appropriate temperature, add the catalyst in sequence to catalyze the reaction. During the reaction, control the temperature, pressure and stirring rate to ensure a uniform reaction speed.
After the reaction is completed, the impurities are removed through cooling, filtration, purification and other processes to obtain a pure product. The production process needs to be continuously explored and optimized, and the variables of each link can be controlled in order to improve the yield and quality and obtain an efficient preparation method.

Chemical Reactions & Modifications

Taste the wonders of chemical industry, related to the change of substances. Today there is a thing called Benzenesulfonicacid, (4- (Bis (4- (Sulfophenyl) Amino) Phenyl) Methylene) -2,5-Cycl, the chemical reaction and modification of this compound, there is a lot to study.
The chemical changes of the husband, such as the symmetry of yin and yang, are endless. The reaction of this substance may vary depending on the temperature and reagent. The way of modification is also related to the improvement of performance. To achieve its best effect, it is necessary to carefully observe the reaction conditions and study the modification method.
In the reaction, observe the clutch of its molecules and the disconnection of chemical bonds, just like observing a microscopic trick. When modifying, think about how to add or subtract groups to adjust their physical and chemical properties and make them more suitable for needs. Or increase its stability, or strengthen its activity, all rely on the careful study of chemists, in order to change the properties of materials, for industrial and daily use, for the benefit of the world.

Synonyms & Product Names

The name of a chemical substance is Benzenesulfonic acid, (4- (Bis (4- (Sulfophenyl) Amino) Phenyl) Methylene) -2,5-Cycl, which is the core of my recent research. In the exploration of the same name and trade name, I know that its significance is extraordinary.
The same name is just like the different names of ancient books. Although the appearance is different, it actually refers to the same thing. The same is true of the trade name, and merchants give it another name in order to show its characteristics or promote it. The same name and trade name of this chemical substance are like stars in the sky, each has its own use.
Looking at this substance, its structure is exquisite and its performance is unique. The variety of the same name and trade name reflects its importance in the industry. Or because of its wide range of uses, it has developed its strengths in different fields, so it has obtained many names. I must study in detail to explain the change of the same name and trade name, and explore its essence. It will add bricks and tiles to the research of chemistry, hoping to understand the mystery of this thing to the best of my ability, so as to facilitate future use.

Safety & Operational Standards

In the field of chemistry, when it comes to products such as "Benzenesulfonic acid, (4- (Bis (4- (Sulfophenyl) Amino) Phenyl) Methylene) -2,5-Cycl", safety and operating standards are of paramount importance.
To properly handle this substance, the experimenter should have complete chemical knowledge and skilled experimental skills. At the beginning of the experiment, it is necessary to carefully investigate its physical and chemical properties and know its possible reaction characteristics to prevent accidents.
The experimental site should be well ventilated and equipped with various safety protection facilities. The operator must wear suitable protective equipment, such as protective clothing, goggles, gloves, etc., to prevent direct contact with it and avoid possible damage.
The operation process requires special caution. Measurement, mixing and other steps should follow precise operating procedures, and must not be done arbitrarily. For reaction conditions, such as temperature, pressure, reaction time, etc., must be strictly controlled, and the reaction may be out of control if there is a slight difference.
Storage of this material should not be ignored. When choosing a dry, cool place away from fire sources and oxidants, store it in categories to prevent dangerous interactions.
In addition, the waste generated by the experiment should not be discarded at will, and should be properly disposed of in accordance with relevant regulations to avoid polluting the environment and endangering the ecology. Only by strictly observing safety and operating standards can we move forward steadily in the path of chemical research, ensuring the safety of the experimenter and promoting the smooth research.

Application Area

There is a thing called "Benzenesulfonicacid, (4- (Bis (4- (Sulfophenyl) Amino) Phenyl) Methylene) -2,5-Cycl", which is a chemical product. Its application field is quite critical. In the field of printing and dyeing, it can be used as a dye aid to help dyes level and fix colors, making fabrics bright and lasting. In pharmaceutical synthesis, it also has a place to provide assistance for the synthesis of specific drug molecules, or can participate in key reaction steps to help form active ingredients. In the preparation of surfactants, it may optimize performance and enhance emulsification and dispersion. From this point of view, this compound has important value in many practical fields and has far-reaching impact on the development of related industries.

Research & Development

I am committed to the research of compounds, and now focus on Benzenesulfonicacid, (4- (Bis (4- (Sulfophenyl) Amino) Phenyl) Methylene) -2,5-Cycl. At the beginning of the research, the molecular structure was carefully observed, and its chemical bonds were analyzed to reveal the basis of its chemical properties.
Then explore its synthesis path, try various methods, and find an efficient and pure method. Or adjust the temperature and pressure of the reaction, or change the catalyst, in order to obtain the ideal yield and purity.
As for its development, it looks forward to its application in materials, medicine and other fields. If its mechanism of action with biomolecules can be understood, it may open up a way for the creation of new drugs. In terms of materials, with its special structure, new materials with outstanding properties may be prepared. With unremitting research, this compound can be promoted to develop its capabilities in various fields and achieve practical results.

Toxicity Research

I am committed to the study of toxicants, and today we discuss the toxicity of [Benzenesulfonic acid, (4- (Bis (4- (Sulfophenyl) Amino) Phenyl) Methylene) -2,5-Cycl]. This substance has a complex structure, contains benzenesulfonic acid base, and has many amino groups connected to phenyl groups. Most benzenesulfonic acid substances have certain activity, or can interact with molecules in organisms. Such complex compounds may be embedded in biomacromolecular structures, interfering with normal physiological processes and causing toxicity. However, the exact toxicity still needs to be studied by many methods. When animal experiments are used to observe its acute and chronic toxicity, and its impact on organ function; it is also necessary to study its metabolic pathways in vivo to clarify the toxicity of metabolites. In this way, the full picture of its toxicity can be obtained, providing evidence for protection and application.

Future Prospects

I have tried to research a substance called "Benzenesulfonicacid, (4- (Bis (4- (Sulfophenyl) Amino) Phenyl) Methylene) -2,5-Cycl". Although this substance has not been widely used today, I still observe its properties and quality, and believe that it will be developed in the future.
Its structure is exquisite, its characteristics are unique, and it can be used in various fields. Although the current technology is not perfect, it will be able to break through the dilemma over time. I and my colleagues study day and night, hoping to explore its maximum potential.
In the future, this substance may be used in medicine to make good medicines more refined; or in materials to make materials better. Although the road ahead is long, we will make unremitting efforts to achieve the undeveloped vision, contribute to the progress of science, and hope that this material will shine in the future.

Where to Buy Benzenesulfonicacid,((4-(Bis(4-((Sulfophenyl)Amino)Phenyl)Methylene)-2,5-Cycl in China?

As a trusted Benzenesulfonicacid,((4-(Bis(4-((Sulfophenyl)Amino)Phenyl)Methylene)-2,5-Cycl 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 Benzenesulfonicacid,((4-(Bis(4-((Sulfophenyl)Amino)Phenyl)Methylene)-2,5-Cycl 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 Benzenesulfonicacid, (4- (Bis (4- (Sulfophenyl) Amino) Phenyl) Methylene) -2,5-Cycl)?

This substance is called ((4- (bis (4- (sulfophenyl) amino) phenyl) methylene) -2,5-ring) benzenesulfonic acid, and its chemical structure is relatively complex. From the name, it can be explained step by step:
1. First, benzenesulfonic acid is the parent structure of this compound, which indicates the existence of a benzene ring, and the benzene ring is connected with a sulfonic acid group (-SO-H).
2. " ((4- (bis (4- (sulfophenyl) amino) phenyl) methylene) -2,5-ring) " This part describes the complex substituents connected at the 4-position on the benzene ring.
- where "4- (bis (4- (sulfophenyl) amino) phenyl) " means that at the 4-position of a certain benzene ring, two identical structural units are connected, each of which is a 4- (sulfophenyl) amino phenyl group. Sulfophenyl here refers to the benzene ring with a sulfonic acid group, the amino group is attached to this benzene ring, and then the whole is connected to the 4-position of another benzene ring.
- "Methylene" indicates that the two complex phenyl structures are connected by a methylene (-CH 2O -), and the whole is connected to the 4-position of the parent benzene ring.
- "2,5-ring" presumably refers to a certain cyclic structure modification at the 2,5 positions on the parent benzene ring, but it is difficult to know the specific composition of this ring only from the given name.
In general, the structure of this compound is composed of the parent benzene sulfonic acid and complex substituents. The substituents contain multiple benzene rings, sulfonic acid groups, amino groups and methylene and other structural units, and there are cyclic modifications that may affect its chemical properties and spatial configuration.

What are the main uses of Benzenesulfonicacid, (4- (Bis (4- (Sulfophenyl) Amino) Phenyl) Methylene) -2,5-Cycl)?

Benzenesulfonic acid, (4- (bis (4- (sulfophenyl) amino) phenyl) methylene) -2,5-ring) This substance has a wide range of uses. In the field of printing and dyeing, it is often used as a dye intermediate. Due to its special chemical structure, it can undergo many chemical reactions to obtain dyes with brilliant color and good fastness, which can make fabrics bright and lasting.
It also plays an important role in the pharmaceutical and chemical industry. Its structural properties make it a key raw material to participate in the synthesis of some drugs. With precise chemical modification, it is helpful to develop innovative drugs with excellent curative effect and small side effects, and escort human health.
In the field of materials science, or can be used to prepare special polymer materials. By virtue of its reaction properties with other compounds, the material is endowed with unique physical and chemical properties, such as enhancing the stability of the material, improving its electrical conductivity, etc., and then expanding the application of the material in different fields, such as electronic devices, aerospace and other high-end fields.
It is also indispensable in the manufacture of some fine chemical products. It can be used as a catalyst or auxiliary agent to promote the smooth progress of the reaction, improve product quality and production efficiency, and plays a crucial role in promoting the development of the fine chemical industry.

What are the physical properties of Benzenesulfonicacid, (4- (Bis (4- (Sulfophenyl) Amino) Phenyl) Methylene) -2,5-Cycl)?

Benzenesulfonic acid, (4- (bis (4- (sulfophenyl) amino) phenyl) methylene) -2,5-ring) This substance has a variety of properties and many characteristics. Its appearance may be in a specific form, under normal conditions, or a solid of a certain texture, or a liquid state, depending on the temperature and pressure of the surrounding environment.
In terms of solubility, because its molecular structure contains sulfonic acid groups, this group is hydrophilic, so the substance may exhibit a certain solubility in water. However, the specific degree of solubility is also affected by conditions such as temperature and pH of the solvent. In an acidic environment, its solubility may be different from that in an alkaline environment.
From the perspective of stability, the atoms in the molecule are connected by specific chemical bonds, which give them a certain stability. However, under extreme conditions such as strong oxidizing agents and high temperatures, the molecular structure may change, causing its chemical properties to change.
Furthermore, the optical properties of the substance are also worthy of investigation. There is a conjugated system in its structure, or it may cause it to exhibit unique absorption spectra or fluorescence characteristics under specific wavelengths of light. This property may have potential application value in fields such as optical materials.
As for its electrical properties, because the sulfonic acid group can ionize ions, the substance may exhibit certain conductivity in appropriate solvents, and can be used as an ionic conductor in specific scenarios. Overall, the physical properties of this substance are subject to a variety of factors, and it has various potential uses in different fields.

What is the preparation method of Benzenesulfonicacid, (4- (Bis (4- ((Sulfophenyl) Amino) Phenyl) Methylene) -2,5-Cycl)?

To prepare benzenesulfonic acid, (4- (bis (4- (sulfophenyl) amino) phenyl) methylene) -2,5-ring), the method is as follows:
First take an appropriate amount of raw materials, which involve specific compounds containing benzene structure, need to be carefully selected to ensure its purity and quality. In a clean reactor, put the relevant raw materials in a precise proportion. This ratio needs to be determined in detail according to the stoichiometric relationship of the reaction and past experience. A slight deviation may cause the product to be impure or the yield is not abundant.
Then, add a specific catalyst. The choice of this catalyst is crucial, which can effectively reduce the activation energy of the reaction and speed up the reaction rate. The selected catalyst is highly selective to the reaction, so that the reaction proceeds along the expected path.
The temperature and pressure of the reaction are also key factors. The temperature of the reactor is adjusted to a suitable range, which depends on the characteristics and kinetic principles of the reaction. At the same time, maintaining a stable pressure environment, high or low pressure can affect the process of the reaction and the generation of products.
During the reaction process, the progress of the reaction needs to be closely monitored. Modern analytical methods, such as chromatographic analysis, can be used to know the concentration changes of each substance in the reaction system in real time. When the reaction reaches the desired level, the reaction is stopped.
Then, the reaction products are separated and purified. This step requires the use of a variety of separation techniques, such as filtration, extraction, crystallization, etc. Through careful operation, impurities are removed, and the purity of the product is improved. The final target is benzenesulfonic acid, (4- (bis (4- (sulfophenyl) amino) phenyl) methylene) -2,5-ring). The whole preparation process requires the experimenter to uphold a rigorous attitude and fine operation to obtain the ideal result.

What is the market outlook for Benzenesulfonicacid, (4- (Bis (4- ((Sulfophenyl) Amino) Phenyl) Methylene) -2,5-Cycl) in the industry?

Benzenesulfonic acid, (4- (bis (4- (sulfophenyl) amino) phenyl) methylene) -2,5-ring) This product is in the industry, and its market prospects are as follows:
View this benzenesulfonic acid compound, in today's various industries, has considerable application prospects and market potential. In the dye industry, its unique structure may provide key raw materials for the development of new dyes. With its sulfophenyl and amino groups, it can be chemically modified to produce dyes with bright color and excellent fastness. In line with the printing and dyeing industry's eagerness for high-quality dyes, it can occupy a place in the textile printing and dyeing market.
In the field of medicine, its complex molecular structure also has potential value. After in-depth pharmacological research and structural optimization, it may become a lead compound for new drugs. Because it contains specific functional groups, or can be combined with specific targets in organisms, it exhibits unique biological activities, opening the possibility for the creation of new therapeutic drugs, and then emerging in the pharmaceutical market.
Furthermore, in the field of materials science, based on this compound, polymer materials with special properties may be developed. Through the interaction and reactivity between molecules, materials with excellent electrical conductivity, optical properties or thermal stability can be synthesized, finding a place in electronic devices, optical materials and other fields, and the market expansion space is broad.
Although this compound has a bright future, in order to fully tap its market potential, it still needs to be carefully studied by scientific researchers to overcome the problems of synthesis process and improve yield and purity; it also needs the industry to review the situation, accurately grasp market demand, and actively promote its industrialization process in order to make it shine in various industries and win a brilliant market prospect.