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Alpha-N-Ethylanilinotoluene-3-Sulphonic Acid

Specifications

HS Code

505108

As an accredited Alpha-N-Ethylanilinotoluene-3-Sulphonic Acid factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	500g of Alpha - N - Ethylanilinotoluene - 3 - Sulphonic Acid packaged in sealed plastic bags.
Storage	Alpha - N - Ethylanilinotoluene - 3 - Sulphonic Acid should be stored in a cool, dry, well - ventilated area, away from sources of heat and ignition. Keep it in a tightly - sealed container to prevent contact with air and moisture, as these may cause degradation. Store separately from incompatible substances like oxidizing agents to avoid potential chemical reactions.
Shipping	Alpha - N - Ethylanilinotoluene - 3 - Sulphonic Acid is shipped in well - sealed, corrosion - resistant containers. Compliance with chemical transport regulations is ensured to prevent leakage and endangerment during transit.

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Alpha-N-Ethylanilinotoluene-3-Sulphonic Acid

General Information

Historical Development

Alpha - N - Ethylanilinotoluene - 3 - Sulphonic Acid is also a chemical product. In the past, the road of research and development was explored step by step. In the beginning, chemists gained insight into relevant chemical principles, studied the properties of substances, and worked tirelessly. Over the years, the method of experimentation has been easier several times. From simple utensils to exquisite equipment; from ignorant speculation to clear cognition. Everyone has worked hard, either under the lonely lights on a cold night, or in the heat of summer. Every failure is the foundation of success; every setback is a step forward. Eventually, this chemical became more and more complete from its embryonic form, emerging in the field of chemistry, paving the way for future applications, and opening a new chapter. Its development process is truly a shining chapter in the history of chemistry.

Product Overview

There is a substance today called Alpha-N-Ethylanilinotoluene-3-Sulphonic Acid. This substance has unique characteristics in the field of chemistry. Its shape and color may be in a certain shape, and whether its properties are stable or not depends on many reactions. Looking at its structure, it contains nitrogen, sulfur and other elements, which are interconnected to form this unique state. It has a wide range of uses, and it can add color and luster to the preparation of dyes; it may also help in the synthesis of medicine. Although it is not widely known, it is indispensable in the field of fine chemicals. Studying it and exploring its mysteries may open up new paths, adding bricks and mortar to the chemical industry and pushing it forward to more subtle places.

Physical & Chemical Properties

The investigation of the physical properties of taste and smell is related to the knowledge of things. Today there is Alpha - N - Ethylanilinotoluene - 3 - Sulphonic Acid, and its physical and chemical properties are worth exploring.
Looking at its state, under room temperature, or in the state of crystallization, the color is pure and uniform, and the luster is slightly broad, just like the appearance of pearls. As for the melting point, after various trials, the melting point is appropriately high, and a specific temperature and pressure are required when boiling to change its state.
Its solubility is slightly affinity for water, and it also has different performance for organic agents such as alcohols and ethers. As for chemical properties, it has the characteristics of acids, which can be combined with alkalis and undergo neutralization. The speed of the reaction depends on the conditions. And its structure contains specific groups, which makes it unique in many reactions. It can add bricks to the chemical industry and help it flourish.

Technical Specifications & Labeling

In today's world, in the study of things, emphasis is placed on technical regulations and standards (commodity parameters). In today's words, Alpha - N - Ethylanilinotoluene - 3 - Sulphonic Acid, its technical regulations are also, first and foremost, pure quality, must meet specific standards, and impurities need to be minimal. The method of making should follow a fine process, and temperature, pressure, and time are all fixed.
As for the standard, when specifying its characteristics, such as color, taste, and state, and noting its danger, the police should use it with caution. The parameters of the product are also required, and the content, geometry, and purity must be confirmed. In this way, it is necessary to obtain the technical regulations and standards (commodity parameters) of this object for the benefit of research and use, so as not to be wrong.

Preparation Method

The method of making Alpha-N-Ethylanilinotoluene-3-Sulphonic Acid is to prepare raw materials. Take an appropriate amount of aniline, use ethanol as a solvent, add bromoethane, heat at controlled temperature, and combine the two phases. This is the first step of the reaction.
After the reaction is completed, take the product, use toluene as the medium, add concentrated sulfuric acid, and sulfonate at temperature. This is the key step. Sulfonation is completed, the temperature is cooled, and the alkali solution is neutralized to obtain the crude product.
The crude product is recrystallized, a mixture of alcohol and water is used as the solvent, heated and dissolved, cooled and crystallized, filtered, and dried to obtain the pure product. When preparing, temperature control, timing control, and material ratio are all important, which are related to the purity and yield of the product, and require careful operation.

Chemical Reactions & Modifications

Modern chemical refinement has made great progress in the study of various compounds. In today's words, the chemical reaction and modification of Alpha-N-Ethylanilinotoluene-3-Sulphonic Acid are really the focus of research.
Looking at its reaction, in the past, there were many conventional methods to find its change. However, the results obtained may not be ideal. Because of its exquisite structure and ordinary reaction conditions, it is difficult to make the best of it. Then think about changing it, adjust its temperature, pressure, and more easily catalyzed materials, in the hope of achieving the best effect.
As for modification, I also tried my best. Want to increase its stability and make it safe in all situations; and seek to change its activity so that it can respond to changing needs. After repeated tests, or minor effects, or difficulties, but not changed. Looking forward to the future, can understand its mysteries, make good use of its properties, so that this compound in the industrial, medical fields, can shine, used by the world.

Synonyms & Product Names

Alpha - N - Ethylanilinotoluene - 3 - Sulphonic Acid, also known as ethylanilinotoluene sulfonic acid. Its synonym is also another name in the industry. The ancients said: "There are many things, and the names are special." This chemical product, in the field of chemical industry, has different names due to different uses and production methods. Or due to differences in origin, or due to differences in process, its trade names are also diverse. However, its essence is the same substance. Just as the ancient books say: "All changes are inseparable from the home." Although the names are different, its chemical properties and molecular structures are all constant. In research and production, it is necessary to identify its name in detail to ensure that it is correct in order to make good use of this chemical product and contribute to the prosperity of industry and the advancement of science and technology.

Safety & Operational Standards

The importance of safety and control
The importance of safety and control
The importance of safety and control
The safety and control of this object, the operation of this object, is determined.
The place where this object is stored, it must be a place where things are dry and dry, to avoid the source of fire. It is easy to encounter or cause danger. And it is appropriate to isolate oxidized substances to prevent their chemical properties from changing.
When you use it, you should first take precautions, such as gloves and eyes. With its possible irritation, it can cause damage to the muscles and eyes. During the operation, the utensils used must also be dyed.
If there is any carelessness, if this thing is released, it will be treated immediately. If it is solid, remove it, put it in a utensil, be careful not to use your hands; if it is liquid, suck it with suction, and then wash it with water. If it is difficult, it should be divided according to the size, so as not to dye the environment.
Research the quality of the product, it must be refined. Every step is difficult, so that you can check it. Work together with each other, follow the rules, and do not do it yourself.
Of course, Alpha - N - Ethylanilinotoluene - 3 - Sulphonic Acid is safe and controlled, all follow the method of science and follow the rules of science. Only in this way can we ensure the safety of research and personal safety.

Application Area

Today there is a product called Alpha-N-Ethylanilinotoluene-3-Sulphonic Acid. This product is used in many fields. In the genus of printing and dyeing, it can be used as a dye aid to help the color be uniform and firm, and the fabric is dyed, and the color is bright and long-lasting. It is suitable for all kinds of fabrics to add color and make the fabric look new. In the field of chemical synthesis, it is an important raw material. After exquisite synthesis, it can produce a variety of fine chemicals and enrich the chemical category. It is also used for scientific research and exploration, as an experimental reagent, to help researchers analyze the properties of substances and explore the reaction mechanism. It has made a lot of contributions to the progress of science. It has a wide range of uses and is of great value in various fields. It is also indispensable for the current chemical, printing and dyeing, and scientific research industries.

Research & Development

A certain day of chemical science, focusing on the study of this "Alpha-N-ethylanilinotoluene-3-sulfonic acid". I devoted myself to study, to explore its quality, preparation method and use.
At the beginning, examine its quality in detail, observe its shape, smell, test its solubility and stability, and get a fine number. Study the production method again, try various paths, seek efficient and clean methods. Optimize the process, control the temperature, pressure, and amount of agent, in order to reduce consumption and improve production.
As for its use, explore its ability in the fields of dyeing and medicine. In the dyeing industry, it is hoped to increase the dyeing power, brightness and firmness; in the pharmaceutical industry, it is hoped to find new effects.
I know very well that research is endless. I must be diligent and continue to work hard, hoping that this product will be effective in various domains, contributing to the progress of the industry and the prosperity of the world, promoting the research and development of this study, and moving forward step by step, living up to my ambitions.

Toxicity Research

There is a substance called Alpha-N-Ethylanilinotoluene-3-Sulphonic Acid. As a chemical researcher, I have been focusing on the study of its toxicity for a long time.
The toxicity of this substance is related to everyone's well-being and cannot be ignored. After many experiments, its characteristics are examined in detail. Under a specific environment, all kinds of creatures are used as samples to observe their various reactions after exposure to this substance.
Observe that its toxicity occurs, or it causes physiological disorders and abnormal behavior. In light cases, the vitality is slightly reduced; in severe cases, it endangers life. However, the appearance of toxicity is also affected by many factors, such as the amount of dose, the length of exposure, and the environmental temperature and humidity.
We should be more careful, and when it is produced and used, we will establish strict regulations to prevent its poison from causing harm to the world, protect the safety of all living beings, and maintain the peace of the environment.

Future Prospects

In the future, I will study Alpha - N - Ethylanilinotoluene - 3 - Sulphonic Acid. This thing will definitely be useful. Its use in the field of work and use is not good, but there are still many who have not yet done good. We will study its properties and improve its methods, hoping to improve its degree and increase its quantity. We hope to explore its new uses, so that it can benefit more. In the future, we may be able to make great use of it in new technologies, and use it in the world, and push forward. The road ahead is long, without setbacks. We are determined and will do our best to develop the great potential of this product, hoping to get its wide application and benefit the people. This is what we look forward to.

Where to Buy Alpha-N-Ethylanilinotoluene-3-Sulphonic Acid in China?

As a trusted Alpha-N-Ethylanilinotoluene-3-Sulphonic Acid 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 Alpha-N-Ethylanilinotoluene-3-Sulphonic Acid supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

What are the main uses of Alpha-N-Ethylanilinotoluene-3-Sulphonic Acid?

α-N-ethylanilinotoluene-3-sulfonic acid has a wide range of uses. In the chemical industry, it is often used as a key intermediate in organic synthesis. For example, when preparing some special dyes, this substance plays a crucial role. In the process of dye synthesis, through specific chemical reactions, α-N-ethylanilinotoluene-3-sulfonic acid can be converted into dye components with specific colors and properties, so that dyes can meet the needs of different fabric dyeing and printing.
Furthermore, it also has its uses in the field of medicine. In the development and synthesis of some drugs, α-N-ethylanilinotoluene-3-sulfonic acid can be used as a starting material or an important reaction intermediate. Through a series of chemical modification and reaction steps, it helps to construct the molecular structure of drugs with specific pharmacological activities, providing the necessary material basis for the creation of new drugs.
In addition, in the preparation of surfactants, α-N-ethylanilinotoluene-3-sulfonic acid can also play a role. It can participate in the synthesis reaction of surfactants, affect their molecular structure and properties, and then make the prepared surfactants have better emulsification, dispersion, solubilization and other characteristics. It is widely used in many industrial and civilian products, such as detergents, cosmetics and other fields, to improve the performance and quality of products.
In short, although α-N-ethylanilinyl toluene-3-sulfonic acid is a chemical substance, it has indispensable uses in many key fields such as chemical industry, medicine, and surfactant preparation, and plays an important role in promoting the development of related industries.

What are the physical properties of Alpha-N-Ethylanilinotoluene-3-Sulphonic Acid?

Alpha-N-ethylphenylamino toluene-3-sulfonic acid, this is an organic compound. Its physical properties are unique, let me tell them one by one.
Looking at its appearance, it is often in the state of white to light yellow crystalline powder, delicate and homogeneous, just like fine snow falling on the world, showing a pure state.
As for solubility, it is quite soluble in water, just like snowflakes merging into a stream, quietly disappearing and turning into a uniform solution. This property makes it widely used in many aqueous chemical reactions and industrial applications. In organic solvents, such as ethanol, acetone, etc., it also has a certain solubility, but the degree varies, just like different materials are soaked in different media.
Melting point is an important physical characteristic of the substance. The substance has a specific melting point. When the temperature rises to a specific value, it gradually melts from a solid state to a liquid state. This process is like the gradual melting of ice and snow in the warm sun. This melting point is a key indicator for identifying and purifying the substance.
Its density is also fixed, and the mass per unit volume is stable, just like a solid earth, giving the substance a stable physical existence in a specific environment.
In addition, this substance also has a certain degree of hygroscopicity, just like a sponge absorbs water, which absorbs some moisture in the air. This requires special attention during storage and use, and must be properly stored to prevent it from affecting the quality and performance due to moisture absorption.
These various physical properties constitute the unique "physical portrait" of Alpha-N-ethylphenylaminotoluene-3-sulfonic acid, which lays the foundation for its application in many fields such as chemical industry and medicine.

What are the chemical properties of Alpha-N-Ethylanilinotoluene-3-Sulphonic Acid?

Alpha-N-ethylphenylamino toluene-3-sulfonic acid, this is an organic compound. It is acidic. Due to its sulfonic acid group, hydrogen ions can be ionized in water, and it has acidic characteristics. It can neutralize and react with bases to form corresponding salts and water.
The compound contains a benzene ring structure, which makes it have certain stability and conjugation effect. The electron cloud distribution of the benzene ring gives it special physical and chemical properties, such as relatively high melting point, boiling point, etc. Its ethylphenylamine structure adds specific electronic effects and spatial barriers to the molecule. The introduction of ethylamine groups affects the electron cloud density of the benzene ring, which in turn affects the reactivity and selectivity of the compound.
In chemical reactions, sulfonic acid groups are more active and can undergo substitution reactions, such as reacting with alcohols to form sulfonates. Electrophilic substitution reactions can also occur on its benzene ring, such as halogenation, nitrification, etc. The specific reactivity and substitution position are jointly affected by the electronic effect of ethylphenylamine and sulfonic acid groups.
From the perspective of solubility, due to the hydrophilicity of sulfonic acid groups, it has a certain solubility in water, but the existence of organic groups makes its solubility not too high. The solubility in organic solvents varies depending on the properties of specific organic solvents.
This compound may have application value in dyes, medicine and other fields. In the field of dyes, the chromophores and chromophores in their structures may endow dyes with good dyeing properties; in the field of medicine, their specific structures may interact with biological macromolecules and exhibit certain biological activities.

What are the synthetic methods of Alpha-N-Ethylanilinotoluene-3-Sulphonic Acid?

The method for preparing Alpha-N-ethylphenylamino toluene-3-sulfonic acid is described in the past. The first method can be started from toluene-3-sulfonic acid. First, the condensation reaction of toluene-3-sulfonic acid and ethylaniline occurs under appropriate reaction conditions. This process requires temperature control, time control and the selection of a suitable catalyst to promote the effective combination of the two to form the target product.
Another method may be to pretreat the ethylaniline first to make its activity check point more reactive. Subsequently, the pretreated ethylaniline is mixed with the specially treated toluene-3-sulfonic acid derivative and reacted in a specific solvent system. The choice of solvent is very important to ensure the smooth dissolution of the reactants and the smooth progress of the reaction.
In addition, the reaction environment is also critical. The acid-base conditions must be suitable, and either peracid or perbase may cause the reaction to be biased to other ways and form by-products. And the stirring rate during the reaction also affects the mixing uniformity of the reactants, which in turn affects the efficiency and yield of the reaction. To prepare Alpha-N-ethylphenylamino toluene-3-sulfonic acid, when various factors are considered comprehensively and careful operation is carried out, satisfactory results can be achieved.

What is the price range of Alpha-N-Ethylanilinotoluene-3-Sulphonic Acid in the market?

"Tiangong Kaiwu" is a scientific and technological masterpiece written by Song Yingxing in the Ming Dynasty. At that time, the "Alpha-N-Ethylanilinotoluene-3-Sulphonic Acid" (α-N-ethylanilinotoluene-3-sulfonic acid) was not available at that time, so it is difficult to find relevant records on its price range in the book.
Today, this compound is often used in the chemical industry, but its price fluctuates greatly and is subject to many factors. First, the cost of raw materials is a key factor. If the price of various basic raw materials required for the production of this acid fluctuates due to factors such as changes in market supply and demand, changes in origin, and scarcity of resources, the price of this acid will fluctuate. If the specific organic raw materials required for preparation, if the supply is tight, the price will rise, the cost of this acid will also increase, and the price will increase.
Second, the complexity of the production process has a significant impact. If the production process requires high-end technology, precision equipment and strict operating conditions, the required manpower, material and financial resources will be huge, the cost will rise, and the price will be high. And process improvement or technological innovation may reduce costs and improve efficiency, so that the price has room for decline.
Third, the market supply and demand relationship is the core of determining the price. If there is strong demand for it in many industries, such as dyes, pharmaceutical intermediates and other industries, the consumption will increase greatly, and the supply will be limited, the price will inevitably rise; on the contrary, if the demand is low and the supply is excessive, the price will decline.
Fourth, product purity and quality grade affect the price. High-purity, high-quality products are often higher than ordinary grade products due to the difficulty of production and meet the needs of high-end customers.
Overall, due to the lack of specific market information, it is difficult to determine its price range. However, in the chemical product market, the price may range from tens to hundreds of yuan per kilogram, depending on the above factors.