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Home Products Barium Diphenylamine Sulfonate

Sulfonic Acid Series Sulfamic Acid Series Guanidine Series

Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

Barium Diphenylamine Sulfonate

Specifications

HS Code	666280
Chemical Formula	C24H20BaN2O6S2
Molecular Weight	633.84 g/mol
Appearance	violet - red crystals or powder
Solubility In Water	slightly soluble
Solubility In Ethanol	soluble
Ph Range	used in weakly acidic to neutral media
Melting Point	decomposes before melting
Stability	stable under normal conditions
Uses	indicator in redox titrations
Color Change In Titration	from colorless to violet

As an accredited Barium Diphenylamine Sulfonate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	500g Barium Diphenylamine Sulfonate packaged in a resealable plastic bag.
Storage	Barium diphenylamine sulfonate should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, flames, and oxidizing agents. Store in tightly - closed containers to prevent moisture absorption and contamination. Since it's a chemical, segregation from incompatible substances is crucial to avoid potentially hazardous reactions.
Shipping	Barium Diphenylamine Sulfonate is shipped in air - tight, corrosion - resistant containers to prevent contact with moisture and air. It adheres to all relevant chemical transportation regulations to ensure safe and proper transit.

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General Information

Historical Development

The author of Barium Diphenylamine Sulfonate is also a chemical product. Its origin is early, and it can be traced back to the past. In the process of exploration, the chemists have discovered its properties for the first time. For the first time, the research on this object has not yet been completed, and one or two of its characteristics have been reviewed.
It is the first step in the process of transformation technology, and researchers have invested more effort. To reverse the process, to understand its completion, and to explore its performance in the process of multiplication. For analyzing the field of transformation, its use can be indicated, and it can help the family to identify the problem.
To this day, the use and benefits of Barium Diphenylamine Sulfonate are all important in terms of engineering, scientific research, etc. This is the result of the unremitting research and promotion of its development.

Product Overview

"The Book of Chemicals"
Today there is a thing called Barium Diphenylamine Sulfonate. Its color may be bright and eye-catching. This is a wonder of chemistry. In the context of experiments, it is often used as an indicator.
When preparing, it is necessary to use subtle methods to control various conditions, such as temperature and the proportion of materials, in order to obtain pure quality. When the acid and base change, it shows a unique sign, which can show the process of the reaction, and help the experimenter to understand the node of the change.
This thing is quite useful in the path of chemical exploration. It is an indispensable element in many analytical experiments. It can make the results accurate and clear, and is also helpful for chemical research.

Physical & Chemical Properties

"Physical Properties and Chemical Properties of Barium Diphenylamine Sulfonate"
Barium Diphenylamine Sulfonate is an important substance for chemical research. Its physical properties, light color, mostly powder state, fine texture. At room temperature, it is quite stable and has no special odor.
In terms of chemical properties, it has a certain reactivity. In case of specific reagents, significant chemical reactions can occur. In the oxidation-reduction reaction system, it often exhibits unique chemical behavior and can interact with many metal ions or oxidizing substances to form different compounds. Its chemical change mechanism is worthy of in-depth investigation. The study of the physical and chemical properties of this substance is of great significance in the fields of chemical production and material research and development, and can provide a solid theoretical basis for the innovation and development of related technologies.

Technical Specifications & Labeling

"Technical Specifications and Labeling of Barium Diphenylamine Sulfonate (Commodity Parameters) "
Barium Diphenylamine Sulfonate is an important category of chemical products. Its technical specifications are related to the preparation method, and it is necessary to precisely control the ratio of raw materials, the temperature and duration of the reaction. If this product is made, it should be based on pure barium salt and diphenylamine sulfonate, in a specific reactor, according to a suitable process, so that the reaction is sufficient and there are few impurities.
As for the label (commodity parameters), the first purity must reach a very high standard before it can be used. Color is also the key, and it should be a specific color state to prove its quality. Furthermore, the size of the particle size, related to its dispersion and solubility, also need to be strictly defined. And on the packaging, the parameters should be clearly marked so that the user can see it at a glance and use it correctly to ensure its proper application in various fields of chemical industry.

Preparation Method

The method of making barium diphenylamine sulfonate is related to raw materials and production process, reaction steps and catalytic mechanism. Take an appropriate amount of phenylenediamine and make it co-react with sulfonic acid substances by sulfonation. First prepare refined phenylenediamine, which is the basis of raw materials. Then select suitable sulfonic acids, such as fuming sulfuric acid, and mix them in precise proportions. In a special reactor, the temperature is controlled in a suitable range, about 150 to 200 degrees, and it needs to be fine-tuned according to the reaction process. During the reaction, a specific catalyst is added to promote the reaction to speed up, and the catalytic mechanism lies in lowering the activation energy. After the reaction is completed, after purification, impurities are removed, and barium diphenylamine sulfonate can be obtained. Its quality is pure and stable, so that it can be used for other purposes.

Chemical Reactions & Modifications

Barium Diphenylamine Sulfonate, in the field of chemistry, its chemical reaction and modification are quite critical. Its change is related to various chemical properties. At first, this agent participates in the reaction, and its molecular structure changes when it encounters other substances, or the disconnection of bonds, or the ease of groups.
As for the modification, it is artificially adjusted to make it suitable for all needs. After research, either its solubility is changed, or its stability is changed, it can exist better in solution, and it is more flexible in response to time. In this way, it can be widely used in analytical chemistry, etc., to increase the accuracy of measurement and improve the efficiency of reaction. After various explorations, the wonders of its chemical reaction and modification have gradually become apparent to our generation, which is of great benefit to the progress of chemistry.

Synonyms & Product Names

"Barium's Benzidine Sulfonate: A Study of the Same Name and Trade Name"
Barium's Benzidine Sulfonate, in the field of chemistry, has many titles with the same name and trade name. Its scientific name is Barium Diphenylamine Sulfonate, but it also has a different name in the community and academic circles.
In the past, it was called "Barium Diphenylamine Sulfonate" because of its characteristics. This is the genus of the abbreviation. With its convenience, it was often heard in various experimental rooms and research places. There are also merchants who make their products unique, and the name is "Rui Barium Diphenylamine Sulfonate", in order to highlight its quality.
Although various names are different, they all refer to the benzidine sulfonate of barium. The words of the same name and the name of the trade may vary depending on the region, use, and business. When scholars study this thing, they need to distinguish it in detail, so as not to confuse it, so as to clarify its nature and make good use of its functions. It is beneficial to the research of chemistry and the production of industry.

Safety & Operational Standards

"On the Safety and Operation Specifications of Barium Diphenylamine Sulfonate"
Barium Diphenylamine Sulfonate is also a chemical product. Its preparation, storage and use should comply with safety and operating standards to avoid risks and ensure safety.
When preparing, all kinds of raw materials, with accurate proportions, should not be slightly poor. The machinery of the machine must be cleaned and checked first to prevent impurities, impure products, and ensure its operation. In the reaction environment, the control of temperature and pressure is crucial. The temperature is related to the speed and fruit of the reaction; the appropriate pressure can ensure the stability of the reaction. And the operator should avoid touching other objects in front of protective gear, such as clothing, helmets, mirrors, covers, etc., to prevent injury to the body.
When storing, it is advisable to choose dry, cool, and dark places. Use a sealed container to hold it to prevent moisture and oxygen from deteriorating. The label is clear, and the name, sex, danger, etc. are written on it, so that people can know it. And it is separated from other things, to avoid coexistence with strong oxygen agents, acids, and alkalis, and to prevent drama.
When using it, the operator must understand its nature and know its method. Do it in a well-ventilated place to avoid gas accumulation. Take the amount and consider it according to the recipe, and do not abuse it or lack it. If there is a spill, deal with it quickly. Those who sprinkle lightly should be collected with suction and then cleaned; those who sprinkle heavily should be urgently avoided and reported to a professional and disposed of according to regulations.
In short, the safety and operation specifications of barium diphenylamine sulfonate are essential for chemical research. Operators can keep safe and smooth, and promote research progress by following these regulations.

Application Area

Barium diphenylamine sulfonate is widely used in various fields of chemistry. It is often used as an indicator in the titration of analytical chemistry. When redox reactions occur, it can keenly indicate the change of the endpoint, allowing the experimenter to clearly observe the reaction.
In industrial preparation, it is also indispensable. It can help monitor the reaction process and ensure the quality and quantity of the product. In the inspection of materials, it can accurately measure the relevant ingredients, which is a must for quality control.
In addition, in scientific research and exploration, barium diphenylamine sulfonate opens up new avenues for researchers. The properties and reaction mechanisms of aid substances expand the boundaries of chemical cognition. Overall, it is of great use in the fields of analysis, industry, and scientific research, and is also an important part of the development of chemistry.

Research & Development

I have dedicated myself to the research of chemical products, and today I will briefly describe the research and development of Barium Diphenylamine Sulfonate.
When I first came into contact with this product, I felt that its properties were unique and it may have extraordinary uses in many chemical experiments. Then I devoted myself to studying its preparation method and strived to improve it. After repeated tests, the process was improved to improve its purity and yield.
In terms of application, it was found that it can be used as an excellent indicator in specific chemical reactions to accurately indicate the reaction process. This is a major discovery. However, it also encountered difficulties, and its stability was sometimes insufficient, which affected the use effect.
After repeated consideration, we adjusted the preparation conditions and added specific additives, which finally improved the stability. Although the research and development of Barium Diphenylamine Sulfonate has a long way to go, I firmly believe that unremitting research will make it more effective and add to the field of chemistry.

Toxicity Research

Study on the toxicity of barium diphenylamine sulfonate
The toxicity of barium diphenylamine sulfonate has been studied in this study. The chemical structure of this product is different, and its properties are also unique. Take all the samples and observe its encounter with barium diphenylamine sulfonate, and observe that the organism is affected by it.
The mice were tested and fed a diet containing barium diphenylamine sulfonate. For a few days, the mice gradually became slack, ate less, and their bodies were weak. After dissection, it was seen that the organs were damaged, the liver was different in color, and the kidneys were also changed. It can be seen that this agent enters the body and can hurt the viscera.
It was also tested with plants. Sprinkling barium diphenylamine sulfonate in the soil, the plants grew slowly, the leaves were wilted
In summary, barium diphenylamine sulfonate is toxic and harmful to the growth and function of organisms. It must be carefully observed when used in the future to avoid disasters and protect the ecology and human health.

Future Prospects

Today, although barium diphenylamine sulfonate is currently known, the future prospects are still vast. In the field of chemical analysis, it may become more accurate and sensitive, helping researchers to gain insight into microscopic mysteries. In the industrial process, it is expected to optimize the process and improve the quality and quantity of output. And with the deepening of research, it may emerge in emerging fields, such as materials science, contributing to the creation of novel materials. When all efforts are gathered, barium diphenylamine sulfonate will be able to bloom brightly in the future, open up a new scene in the unknown, lead chemical research to a new height, and bring great benefits to human development.

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As a trusted Barium Diphenylamine Sulfonate 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 Barium Diphenylamine Sulfonate 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 Barium Diphenylamine Sulfonate?

Barium (Barium), diphenylamine (Diphenylamine) and sulfonate are widely used. In the chemical industry, it is often used as an analytical reagent. For example, in titration analysis, it can keenly indicate the end point of the reaction, help chemical practitioners accurately determine the reaction process and ensure product quality.
In the field of materials science, it also has important uses. It can participate in the preparation of special materials, endowing materials with good stability or unique optical and electrical properties, etc., and then expand the application scenarios of materials, such as electronic devices, optical instruments and other fields.
In medical research, the combination of these three may have potential medicinal value. Or it can be used as a drug carrier to assist in the accurate delivery of drugs to lesions and improve drug efficacy; or it can participate in the drug synthesis process to provide key raw materials for the research and development of new drugs.
It can also play a role in the field of environmental monitoring. It can be used to detect specific pollutants, and through its specific reaction with pollutants, it can achieve accurate detection and analysis of harmful substances in the environment, and help the development of environmental protection work.
The combination of these three, with its unique chemical properties, plays a key role in many fields and promotes technological progress and development in various fields.

What are the physical properties of Barium Diphenylamine Sulfonate?

Barium (Barium), diphenylamine (Diphenylamine) and sulfonate (Sulfonate) are composed of substances with unique physical properties. Barium is an alkaline earth metal with active chemistry. It is a silver-white solid state under normal conditions, with a soft texture and high density. Its compounds are used in many fields.
Diphenylamine is an organic compound with a colorless to light gray crystalline appearance. It has a unique odor and is difficult to dissolve in water, but it is easily soluble in organic solvents such as alcohols and ethers. It plays a significant role in the manufacture of dyes, medicines and rubber auxiliaries.
Sulfonates are derivatives of sulfonic acids. Sulfonates are mostly water-soluble and some of them also exhibit surface activity. They are indispensable in the manufacture of detergents and emulsifiers.
When barium, diphenylamine and sulfonate are combined, or a complex with special properties is formed. From the perspective of solubility, due to the presence of sulfonate, the complex or has better water solubility than diphenylamine. In terms of stability, the intervention of barium ions or the change of the chemical stability of the system affects its reactivity in different environments. In addition, due to the coexistence of the organic structure of diphenylamine and the polar structure of sulfonate, the complex may have unique interfacial properties, such as specific adsorption and arrangement behaviors at the liquid-liquid interface or gas-liquid interface, which affect physical parameters such as surface tension. These properties make this complex potentially valuable in the fields of materials science, chemical engineering, etc., and can be used to develop new functional materials or optimize chemical processes.

What are the chemical properties of Barium Diphenylamine Sulfonate?

Barium (Barium), diphenylamine (Diphenylamine) and sulfonate (Sulfonate) are composed of a unique and interesting chemical properties.
Barium is a reactive metal element with strong reducing properties. In such combinations, barium ions can interact with the anions of the sulfonate to form ionic bonding compounds. This compound may affect the solubility and stability of the whole substance. If it encounters specific anions, or forms insoluble barium salt precipitation, it affects the physical and chemical properties of the system.
Diphenylamine has a nitrogen-containing heterocyclic structure, which is weakly basic and has a certain electron-giving ability. It interacts with sulfonates in the system or with electron transfer or acid-base neutralization. The benzene ring structure of diphenylamine imparts its conjugated system, which affects the optical and electrical properties of the whole substance, or causes the substance to exhibit special absorption spectra or charge transport properties.
Sulfonates contain sulfonic acid groups (-SO 🥰), which have good hydrophilicity and surface activity. In combination, sulfonic acid groups can bind to barium ions and diphenylamines by ion-dipole action, or improve the dispersion of the substance in the aqueous phase. And sulfonates may participate in oxidation-reduction reactions, and the stability and reactivity of their sulfonic acid groups can be changed by the surrounding chemical environment, such as interactions with barium ions and diphenylamine. The chemical properties of the substances formed by the combination of the three are determined by the complex interactions between the components, and may have potential applications in many fields such as materials science, chemical analysis, and catalysis.

What are the precautions for Barium Diphenylamine Sulfonate during use?

When using barium (Barium) and diphenylamine sulfonate (Diphenylamine Sulfonate), many matters need to be paid careful attention.
First, it is related to the properties of both. Barium has lively chemical properties and is prone to violent reactions in contact with water to produce hydrogen, so when storing and using it, it is necessary to ensure that the environment is dry and away from water sources. As an organic compound, the stability of diphenylamine sulfonate is greatly affected by factors such as temperature and light. Under high temperature or strong light, it is easy to decompose or deteriorate, causing its performance to change, which in turn affects the effect of experiment or production. Therefore, it needs to be properly stored in a cool and dark place.
Second, during use, safety protection is crucial. Barium and its compounds are toxic and can cause serious damage to the human body if inhaled, ingested or in contact with the skin. Professional protective equipment should be worn when using, such as protective gloves, goggles and gas masks, to prevent barium from coming into contact with the skin, eyes or inhalation into the body. For diphenylamine sulfonate, although its toxicity is relatively small, it may also cause irritation to the skin and respiratory tract, and protective measures should also be taken.
Third, the operating specifications should not be underestimated. When using barium and diphenylamine sulfonate, it is necessary to strictly follow the established operating procedures. When weighing, it is necessary to use precise instruments to ensure that the dosage is accurate. When mixing the two, it should be carried out according to a specific order and method to prevent danger caused by severe reactions. And the operation process should be carried out in a well-ventilated environment, and the harmful gases that may be generated should be discharged in time.
Fourth, waste treatment should not be ignored. After the experiment or production is completed, the residual barium and diphenylamine sulfonate waste should not be discarded at will. Barium waste needs to be specially collected and treated in accordance with the regulations on hazardous waste treatment to prevent it from causing pollution to the environment. Diphenylamine sulfonate waste should also follow the corresponding environmental protection requirements and be properly disposed of to maintain the safety of the environment.

What is the preparation method of Barium Diphenylamine Sulfonate?

The method of preparing barium-diphenylamine sulfonate is described in detail as follows.
First, you need to prepare the raw materials, sodium diphenylamine sulfonate, barium chloride, etc. are all key things. Measure an appropriate amount of sodium diphenylamine sulfonate and dissolve it in an appropriate amount of water to prepare a clear solution. In this process, the water temperature should be moderate, and it should not be too cold or too hot to help it fully dissolve.
At the same time, weigh an appropriate amount of barium chloride and dissolve it in water. After both are dissolved, slowly pour the barium chloride solution into the sodium diphenylamine sulfonate solution. When pouring, you need to constantly stir to make the two fully mix and react. This stirring action should not be too hasty or too slow, and strive to be uniform.
After the reaction is completed, there may be precipitation in the solution. At this time, the precipitation can be separated by filtration. The choice of filter material is very important, and the appropriate pore size needs to be selected to ensure that the precipitation is not missed.
The resulting precipitation needs to be washed several times with pure water to remove its impurities. After washing, the precipitation is placed in an oven at a suitable temperature to dry. The degree of drying should not be too high to avoid damaging the product structure.
When drying is complete, barium-diphenylamine sulfonate is obtained. During the whole preparation process, it is necessary to pay attention to the conditions of each step to control, the dosage of raw materials is accurate, and the operation is meticulous, so as to obtain high-quality products.