2,4-Xylidine-6-Sulphonic Acid

Lingxian Chemical

Specifications

HS Code	931149
Chemical Formula	C8H11NO3S
Molar Mass	199.24 g/mol
Appearance	Solid
Solubility In Water	Moderate solubility
Melting Point	Data needed
Boiling Point	Data needed
Density	Data needed
Acidity Pka	Data needed
Purity	Varies by grade
Odor	Characteristic odor
Stability	Stable under normal conditions

Packing & Storage

Packing	500 g of 2,4 - Xylidine - 6 - Sulphonic Acid packaged in sealed plastic bags.
Storage	2,4 - Xylidine - 6 - Sulphonic Acid should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, open flames, and incompatible substances like strong oxidizing agents. Store in tightly - sealed containers to prevent moisture absorption and potential chemical reactions. Avoid direct sunlight exposure to maintain its chemical stability.
Shipping	2,4 - Xylidine - 6 - Sulphonic Acid should be shipped in properly sealed containers, following strict hazardous chemicals regulations. Ensure proper labeling indicating the nature of the substance for safe transportation to the destination.

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General Information

Historical Development

About the Historical Evolution of 2,4-Dimethylaniline-6-Sulphonic Acid
Fu 2,4-Xylidine-6-Sulphonic Acid, one of the chemical substances. Tracing back to the past, its research and development path originated from the exploration of organic chemical synthesis. At the beginning, scholars did not have a deep understanding of the principle of chemical synthesis, but continued to study it.
As the years passed, people gradually realized the organic structure and reaction. Due to the rise of industry, the need for special chemicals increased, and this compound entered the field of research and development. After many ingenuity and attempts, the synthesis method gradually became.
Early synthesis, although there were complicated and inefficient disadvantages, was the foundation for the follow-up. Later scholars, carry on the work of the former, improve the process, and improve the yield and purity. From the initial exploration of ignorance to the improvement of techniques, the development of 2,4-Xylidine-6-Sulphonic Acid depends on the efforts of researchers of successive dynasties, and finally becomes the state that is available today.

Product Overview

Nowadays, there is a substance called 2,4-dimethylaniline-6-sulfonic acid, which is the object of chemical research. This compound has unique properties and the appearance is in the state of [specific appearance]. It has specific properties and uses in the field of chemistry.
In terms of its properties, the chemical structure contains specific groups, causing it to have properties such as [list related chemical properties]. In reactions, it often exhibits [related reaction properties].
As for its uses, it is quite useful in many industrial processes and scientific research experiments. It can be used for [specific use 1] to provide assistance to related industries; it can also play a key role in [specific use 2] to promote scientific research progress.
This 2,4-dimethylaniline-6-sulfonic acid, with its unique properties and diverse uses, has an important position in the field of chemistry and is worthy of in-depth investigation and study.

Physical & Chemical Properties

2,4-Dimethylaniline-6-sulfonic acid, the physical and chemical properties of this substance are related to many aspects. Its color state is usually white to light yellow crystalline powder, which has unique characteristics in appearance. In terms of solubility, it has a certain solubility in water and can form a specific dispersion system with water.
From the perspective of chemical activity, the sulfonic acid group gives it acidic properties, which can neutralize with bases to form corresponding salts. The benzene ring and methyl in its molecular structure affect its chemical stability and reactivity. Due to the existence of the benzene ring conjugate system, the substance has certain aromaticity and stability; methyl changes the electron cloud distribution of the benzene ring, which affects its electrophilic substitution reactivity. In terms of thermal stability, it can remain stable within a certain temperature range, exceeding a specific temperature limit, or undergoing reactions such as decomposition and isomerization, which affect its chemical composition and structure.

Technical Specifications & Labeling

This is an important task in the technical regulations and standards of 2,4 - Xylidine - 6 - Sulphonic Acid. The technical regulations, the material ratio is accurate, such as the dosage of various agents, must match the number, and there must be no difference. At the time of reaction, the control of temperature and pressure is also critical. If the temperature is high, the quality will be variable, and if the temperature is low, it should be slow and difficult to achieve. As for the standard (ginseng), the color purity and quality are essential, and the impurity content is small, so as to meet its style. The particle size is uniform, and there should be no coarse or fine. In this way, a good product can be made and used for all purposes. If the technical regulations and standards (ginseng) are kept unswervingly, the quality of the product will be stable.

Preparation Method

The method of preparing 2,4-dimethylaniline-6-sulfonic acid, the first heavy raw material. Choose high-quality p-xylene amine as the base, supplemented by concentrated sulfuric acid, the two are suitable, which is the foundation.
The preparation process, first p-xylene amine and concentrated sulfuric acid in a certain amount ratio, into the special kettle. Slow down the temperature to a proper degree, stirring during the process, so that the reaction is uniform. When the reaction is moderate and the temperature is lowered, this is the reaction step.
Follow-up treatment, neutralize with a specific reagent, remove its impurities, and filter and purify the product many times to make the product pure.
device system, the kettle needs to be acid-resistant and heat-resistant, the stirring device should be uniform and stable, and the filtration and purification device should be accurate. In this way, pure 2,4-dimethylaniline-6-sulfonic acid can be obtained for all needs.

Chemical Reactions & Modifications

In modern times, chemical refinement has deepened in the study of various substances. In today's discussion of 2,4-Xylidine-6-Sulphonic Acid, its chemical reaction and modification are essential.
The chemical change of the husband is related to the change of the molecular structure. The reaction of 2,4-Xylidine-6-Sulphonic Acid often involves the conversion of functional groups. Its sulfonic acid group interacts with amino groups, methyl groups, etc., either as a substitute or an addition, which all respond to external conditions, such as changes in temperature and pH.
As for modification, it is designed to optimize its performance. Or increase its solubility to suit more solvent systems; or adjust its stability to make it last for a long time in different environments. In this way, it can be widely used in the fields of medicine and materials. Looking at its chemical reaction and modification is the key to unlocking its potential and opening up a new path for today's chemical research.

Synonyms & Product Names

2,4-Dimethylaniline-6-sulfonic acid, which also has many other names. Its common name is often derived according to its characteristics and uses. In the industry, there are also those who are commensurate with the trade name.
Ancient is called a thing, and many coexist, all of which vary from region to region and industry. 2,4-Dimethylaniline-6-sulfonic acid, or it is called a variant of o-dimethylaniline sulfonic acid, because of its similar chemical structure. It is also named by function, because it has special use in chemical synthesis, or is called a key sulfonic acid agent for certain reactions.
Merchants are to show their characteristics, or to establish a separate trade name. However, no matter what the name is, they all refer to this 2,4-dimethylaniline-6-sulfonic acid. Although the names are different, they are actually the same. They are all referred to as industry exchanges and applications.

Safety & Operational Standards

Safety and Operation Specifications for 2,4-Dimethylaniline-6-Sulphonic Acid
For those with 2,4-Xylidine-6-Sulphonic Acid, chemical products are also used. It should be used in research and development, and it is necessary to operate safely.
#1. Safety
This thing may be dangerous to a certain extent. If it is connected to the skin, it may not cause the skin to fail, or cause the disease. If it is not carefully entered into the eyes, it will cause special damage to the eyes, and it can cause damage. Therefore, when operating, it is necessary to prevent damage, such as gloves and eyes, to prevent it from being directly connected to the body.
It has a bad taste or is irritating. If the amount of air is inhaled, it can cause respiratory failure, and even affect respiratory health. The air is well ventilated, and it is arranged in a row to dissipate harmful air and ensure the safety of the operation environment.
#Second, the operation
Take this thing, and it is appropriate to avoid it from coming out. The utensils used must be dry and dry to prevent the air from being mixed in and affecting its properties. And the operation process should follow the established process and must not be changed without authorization.
Mixed air, add it in an orderly manner according to the proportion, and do not mix well, so that the reaction is uniform. Add also pay attention to control the degree, in order to prevent the reaction from being strong and causing danger.
Use water and store it properly. It should be placed in a dry place, a dry place, a source of ignition, and a source of ignition. Store the container and seal it to prevent it from leaking.
It is safe to operate with 2,4-Xylidine-6-Sulphonic Acid, and must not be ignored. Only by keeping an eye on it and following it can we ensure the safety of research and use.

Application Area

Guanfu 2,4 - Xylidine - 6 - Sulphonic Acid has a wide range of application fields. In the field of printing and dyeing, it can be used as a dye intermediate to assist in the dyeing of color and make the fabric color bright and lasting. In the pharmaceutical and chemical industry, it also has a key use, providing important raw materials for drug synthesis and assisting the research and development of new pharmaceuticals. In addition, it is also indispensable in the preparation of some fine chemical products, or it can optimize product performance and improve quality. It shows unique capabilities in various application fields and contributes to the development of related industries. It has extraordinary functions and makes outstanding contributions to promoting industrial progress.

Research & Development

Taste the way of scientific research, the most important thing is to study it unremittingly. Now on 2,4 - Xylidine - 6 - Sulphonic Acid, I will devote myself to exploring it. I began to investigate its source, knowing that it is related to many fields of chemical industry. At first, analyzing its structure and distinguishing its characteristics was difficult, but I did not dare to slack off. Then, try different methods to find the best way to prepare it. In the process, or raw materials are difficult to find, or conditions are harsh, all go all out. Fortunately, the yield and purity are improved. Thinking about its application, I hope to expand new horizons and contribute to the development of the industry. I will make unremitting efforts to improve the level, so that this scientific research can benefit a wider range, promote its sustainable development, and do my best for the prosperity of the chemical industry.

Toxicity Research

Study on the toxicity of 2,4-dimethylaniline-6-sulphonic acid
Fu 2,4-Xylidine-6-Sulphonic Acid, chemical substances are also. I am a researcher of chemical substances, and I have studied the toxicity of this substance.
The color of this substance, and we will observe it. Its nature, and it will be analyzed. To understand its impact on the shadow of living things, carry out a general study. Take the image of this substance and cast it on its physiology. It may be normal, or it may be lost.
And examine its role in the environment. Scattered in soil, observe the toxicity of living things in soil; dissolved in water, living in water. Therefore, the toxicity of 2,4-Xylidine-6-Sulphonic Acid cannot be ignored. In terms of its production and use, be careful to prevent it from harming organisms. Use it safely and well.

Future Prospects

In today's world, chemical things are changing with each passing day. Today there are 2,4 - Xylidine - 6 - Sulphonic Acid compounds, which are promising in our chemical research.
We look to the future, this compound may shine in the field of medicine. Its unique structure may provide a key opportunity for the creation of special new drugs. In the process of pharmaceuticals, it can precisely target specific diseases and cure all kinds of diseases.
It is also expected to emerge in the field of materials science. With its characteristics, new functional materials may be developed and applied in many fields such as electronics and aerospace to improve the performance of materials and promote the progress of science and technology.
Although there may be thorns ahead, we chemical researchers should have a firm heart, study physics, and explore unremitting. With diligence and wisdom, we hope to uncover the mysteries of 2,4-Xylidine-6-Sulphonic Acid, achieve future glory, and live up to the expectations of the times.

Frequently Asked Questions

What are the main uses of 4-Xylidine-6-Sulphonic Acid?

2% 2C4-dimethylaniline-6-sulphonic acid (2% 2C4-Xylidine-6-Sulphonic Acid), which is widely used. In the dye industry, it is a key intermediate for the preparation of a variety of brilliant dyes. Through specific chemical reactions, it can be cleverly combined with other compounds to generate bright-colored and stable dyes, which are used in the dyeing process of fabrics, leather and many other materials to make the finished product rich and lasting.
In the field of medicine, it also has its own influence. Due to its specific chemical structure, it can be used as a starting material or an important intermediate for the synthesis of some drugs, laying the foundation for the research and development and production of drugs, and contributing greatly to the development of the pharmaceutical industry.
In addition, in the manufacturing process of some fine chemical products, 2% 2C4-dimethylaniline-6-sulfonic acid also plays an indispensable role. Either used to optimize the performance of the product, or as a key additive to the reaction, help fine chemical products to achieve higher quality standards to meet the stringent needs of different industries for special chemicals. In short, it plays a key role in many important industrial fields and has a profound impact on the development of related industries.

2, 4-Xylidine-6-Sulphonic Acid in production need to pay attention to what

2% 2C4 - Xylidine - 6 - Sulphonic Acid is 2,4 - dimethylaniline - 6 - sulfonic acid. During production, many matters need to be paid attention to.
First, it is related to the selection and treatment of raw materials. The purity of raw materials has a great impact on the quality of products. Select high-purity 2,4 - dimethylaniline and other raw materials to effectively reduce the formation of impurities. Before taking it, the raw materials need to be carefully tested to see if their purity, water content and other indicators meet the standards. If the raw materials are impure, or the reaction by-products increase, the difficulty of product separation and purification increases, and even affects the performance of the product.
Second, the control of reaction conditions is the key. In terms of temperature, the reaction temperature needs to be strictly controlled. If the temperature is too high, or the reaction rate is too fast, it will lead to side reactions, such as excessive sulfonation, which will reduce the yield and purity of the product; if the temperature is too low, the reaction rate will be slow and the production efficiency will be low. Pressure cannot be ignored. Some reactions are carried out under specific pressure environments, and pressure fluctuations may affect the reaction process and product structure. At the same time, the reaction time also needs to be accurately controlled. If it is too short, the reaction will not be complete, and if it is too long, unnecessary side reactions may occur.
Furthermore, it is related to the reaction equipment. The material of the equipment needs to be able to withstand the corrosion of the reaction medium. For example, sulfonic acid is corrosive. If the equipment is not corrosion-resistant, it may And the mixing effect of the equipment is also important. Good stirring can make the reactants fully contact, so that the reaction can be carried out evenly, and local reactions can be avoided.
In addition, the separation and purification of the product are also important. After the reaction, the mixture contains products, unreacted raw materials and by-products. Appropriate methods for separation and purification, such as crystallization, extraction, distillation, etc. The operation process must be careful to prevent product loss or the introduction of new impurities.
After that, safe production should not be underestimated. The production of 2,4-dimethylaniline-6-sulfonic acid involves chemical substances, or has dangerous properties such as toxicity and corrosiveness. Production sites should be equipped with complete protective facilities, and operators must strictly follow operating procedures to ensure personal protection to prevent accidents and ensure personal and environmental safety.

2, 4-Xylidine-6-Sulphonic the safety of Acid

2% 2C4 - Xylidine - 6 - Sulphonic Acid is a chemical substance. In terms of its safety, it needs to be considered in detail.
This substance is often used as a raw material or intermediate in the chemical process. Its chemical structure contains specific functional groups, or causes different chemical reactions. In the environment, if released, it may have a potential impact on the ecology. According to its chemical properties, or with a certain solubility, it can migrate through water bodies, or affect aquatic organisms. It is in the soil, or interacts with soil components, affecting the growth of soil and vegetation.
As far as human health is concerned, the mode of contact is related to the degree of harm. By skin contact, or causing skin irritation, it is apparent that there is redness, swelling and itching. If you inadvertently inhale its dust or vapor, it can damage the respiratory tract, and now cough, asthma, etc. If you eat it by mistake, it may injure the digestive system, causing vomiting and abdominal pain.
In industrial production scenarios, if the operator is not well protected, long-term exposure to this substance may increase health risks. However, if you operate in accordance with norms, prepare appropriate protective measures, such as protective clothing, wearing protective masks, etc., can reduce hazards. When storing and transporting, you must also take appropriate measures according to its characteristics to avoid leakage accidents and ensure the safety of the environment and personnel.
In conclusion, the safety of 2% 2C4 - Xylidine - 6 - Sulphonic Acid requires careful consideration of various factors such as environmental, human health and industrial operation.

What are the storage conditions for 4-Xylidine-6-Sulphonic Acid?

2% 2C4-dimethylaniline-6-sulfonic acid, this is a chemical substance. Its storage conditions are extremely critical, which is related to the stability and quality of the substance. According to the ancient principles of "Tiangong Kaiwu", the storage method, the first environment is dry. This chemical should also be stored in a dry place. If the environment is humid, water vapor is easy to interact with it, or cause it to deteriorate, affecting its chemical properties and application efficiency.
Furthermore, temperature is also the main point. It should be placed in a cool place to avoid high temperature hot topics. Because high temperature can accelerate its chemical reaction rate, or cause adverse reactions such as decomposition and polymerization, which will damage its inherent characteristics.
At the same time, it is necessary to pay attention to its isolation from other things. This substance has specific chemical activity. If it comes into contact with improper substances, such as strong oxidants, strong alkalis, etc., it is easy to cause violent reactions and cause potential safety hazards. Therefore, it should be stored separately, or co-stored with the appropriate substance according to its chemical properties.
And the storage place should be clearly marked, indicating the name of the substance, characteristics, hazards and other information, so as to facilitate access and management, and prevent danger caused by accidental operation. During handling and storage, operators should also strictly abide by regulations and take protective measures to ensure their own safety and material integrity.

2, 4-Xylidine-6-Sulphonic whether Acid will react with other substances

2% 2C4-dimethylaniline-6-sulphonic acid (2% 2C4-Xylidine-6-Sulphonic Acid), which may involve chemical changes, should be carefully examined.
As mentioned in "Tiangong Kaiwu", things have their own properties, and their properties occur in response. This acid has the properties of sulfonic acids, and sulfonic acids are more active, or it should react with bases, alcohols, metals, etc. In case of alkali, or salt and water, follow the principle of acid-base neutralization, the hydrogen of sulfonic acid and the hydroxide of the base combine into water, and the rest form a salt.
Or react with alcohol to form a sulfonate. This should require a catalytic agent, and temperature control, time, etc. The reaction between sulfonic acid and alcohol requires suitable conditions to promote the disconnection of the bond and form a new compound.
When encountering a metal, it depends on the activity of the metal, or the reaction of the raw replacement. Active metals can replace hydrogen sulfonate, produce hydrogen gas, and form metal sulfonates.
However, the details of the application must be based on the actual agent and conditions. Different temperatures, pressures, and concentrations should be different. And in the structure of 2% 2C4-dimethylaniline-6-sulfonic acid, the part of dimethylaniline may also respond to the reaction. Its aromatic ring and substituent can cause changes in the electron cloud, affecting the activity and orientation of the sulfonic acid group.
Therefore, when discussing the response between this acid and other things, we must comprehensively consider all causes, carefully observe the facts, and then understand the law of its change.