Aniline-4-Beta-Ethyl Sulfonyl Sulfate-2-Sulfonic Acid

Lingxian Chemical

Specifications

HS Code

664451

Packing & Storage

Packing	500g of Aniline - 4 - Beta - Ethyl Sulfonyl Sulfate - 2 - Sulfonic Acid packaged in a sealed bag.
Storage	"Aniline - 4 - Beta - Ethyl Sulfonyl Sulfate - 2 - Sulfonic Acid" should be stored in a cool, dry area away from sources of heat and ignition. Keep it in a tightly - sealed container to prevent moisture absorption and contamination. Store separately from incompatible substances like oxidizing agents, acids, and bases to avoid dangerous reactions.
Shipping	Shipment of Aniline - 4 - Beta - Ethyl Sulfonyl Sulfate - 2 - Sulfonic Acid must follow strict chemical regulations. It should be properly packaged in corrosion - resistant containers, labeled clearly, and transported by carriers with hazardous chemical shipping approvals.

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Aniline-4-Beta-Ethyl Sulfonyl Sulfate-2-Sulfonic Acid

General Information

Historical Development

Aniline-4-Beta-Ethyl Sulfonyl Sulfate-2-Sulfonic Acid, its historical evolution is worth exploring. In the past years, the research of chemistry has gradually deepened. At the beginning, the understanding of the properties of substances was still shallow, but many researchers worked tirelessly. In the field of organic chemistry, more and more exploration was made of sulfur-containing aromatic amines. With the passage of time, experimental techniques have been improved, and the synthesis and properties of Aniline-4-Beta-Ethyl Sulfonyl Sulfate-2-Sulfonic Acid have been studied more accurately. Many scholars have tried to prepare it by different methods, and their structure and function have been dissected in detail. The potential value of this substance in the chemical industry and scientific research has gradually become apparent in the process of historical development, laying a solid foundation for subsequent research and application.

Product Overview

Aniline - 4 - Beta - Ethyl Sulfonyl Sulfate - 2 - Sulfonic Acid is an important product of our chemical research. It is unique and has extraordinary characteristics. Looking at its structure, it consists of aniline root, with specific sulfonyl sulfate group and sulfonic acid group, and ethyl side chain attached to the β position, and the structure is exquisite and orderly.
This product has a wide range of uses in the chemical industry, or can be used as a key intermediate for specific reactions to assist the synthesis of new compounds. Its chemical activity is suitable, and it can participate in the reaction under many conditions, adding to the chemical process. And because of its special structure, or beneficial to the improvement of the properties of some materials, it can improve the stability and solubility of materials.
After repeated experiments and detailed analysis, we have finally obtained this product. We will further explore its potential in the future, hoping to contribute to the development of the chemical industry.

Physical & Chemical Properties

Aniline - 4 - Beta - Ethyl Sulfonyl Sulfate - 2 - Sulfonic Acid is a novel chemical substance. Its physical and chemical properties are particularly critical. Looking at its properties, it may be crystalline, and its color may be white or nearly colorless, depending on its purity. The determination of its melting point can detect the strength of intermolecular forces. After precise measurement, it can be known that it begins to melt at a specific temperature, which is an inherent property of the substance.
Solubility is also important. The degree of solubility in water can be judged by its hydrophilicity. It is either soluble or slightly soluble, which is related to the polarity of the molecule. If the molecule has polar groups, it is easy to date with water. Its chemical stability is related to storage and application. In the air, or in contact with light and heat, it is necessary to check whether it decomposes. This substance contains specific functional groups, which determine its chemical reaction activity, or can participate in reactions such as sulfonation and esterification, which makes it possible for chemical synthesis.

Technical Specifications & Labeling

Guanfu Aniline - 4 - Beta - Ethyl Sulfonyl Sulfate - 2 - Sulfonic Acid This product, its process specifications and identification (commodity parameters) are the key. For process specifications, it is necessary to explain the preparation method, from the selection of raw materials to the reaction conditions, all must be detailed. The raw materials must be pure, and the temperature, pressure, time and other parameters of the reaction should be precisely controlled.
In terms of identification (commodity parameters), its chemical composition should be marked so that everyone can understand its essence. Physical properties, such as color, state, and taste, cannot be ignored. It is also necessary to show its purity geometry, and the amount of impurities, which is related to the quality of the product.
Only in this way can this Aniline - 4 - Beta - Ethyl Sulfonyl Sulfate - 2 - Sulfonic Acid be suitable for various applications, and its ability to achieve good craftsmanship and excellent quality.

Preparation Method

The method of preparing Aniline - 4 - Beta - Ethyl Sulfonyl Sulfate - 2 - Sulfonic Acid is related to the raw materials and production process, reaction steps and catalytic mechanism.
To prepare this product, prepare the raw materials first. Take an appropriate amount of aniline and choose the pure one. Also prepare the reactants containing ethylsulfonyl groups and sulfuric acid groups, carefully measure to ensure proper proportions.
As for the production process, in the clean reactor, the temperature is moderately controlled, about [X] degrees Celsius. Add the raw materials in sequence, stir well, and promote their full contact. The reaction steps are rigorous, and the aniline is first reacted with a specific ethylsulfonyl-containing substance to form an intermediate. This step requires precise time control, about [X] hours. Then, the intermediate interacts with the reactant containing sulfate to obtain Aniline-4-Beta-Ethyl Sulfonyl Sulfate-2-Sulfonic Acid.
Catalytic mechanism is also critical. Selecting a high-efficiency catalyst can reduce the energy consumption of the reaction and the growth rate. The amount of catalyst should be moderate, more will cause side reactions, and less will cause insufficient catalysis. Close observation throughout the process to ensure that the reaction goes forward, and then the preparation of this substance is completed.

Chemical Reactions & Modifications

Guanfu Aniline - 4 - Beta - Ethyl Sulfonyl Sulfate - 2 - Sulfonic Acid, in the field of chemistry, its reaction and denaturation are fascinating, and it is worth studying in depth.
Its reaction is also, or according to specific rules, it changes when it encounters a certain agent, following the laws of chemistry, molecular reorganization, and structural renewal. Or it shows different states due to differences in temperature and pressure. For example, if the temperature is high, it will change rapidly, and if the pressure is large, it will change. This is the norm in chemistry.
As for denaturation, or change its properties, increase its stability, or add its activity, and expand its use. can turn ordinary into magic, turn useless into useful. For the needs of industry, or adjust its nature to suit production; for the sake of scientific research, or explore its changes to expand cognition.
Our chemical researchers, when we study the mystery of its reaction and transformation, open the door to the unknown, for the advancement of chemistry, do our best to explore its subtlety, hoping to gain something, so as to benefit the world.

Synonyms & Product Names

Aniline - 4 - Beta - Ethyl Sulfonyl Sulfate - 2 - Sulfonic Acid, in the field of chemistry, has many synonymous names and commodity names. Its synonymous names are expressed differently due to the variety of chemical naming rules, viewed from different perspectives. Or from the characteristics of its structure, according to the combination of specific atomic groups, connection order, etc., derived from different titles.
As for the trade name, merchants take it for market promotion, according to market demand, product characteristics, etc. Although the names are different, they all refer to this Aniline-4-Beta-Ethyl Sulfonyl Sulfate-2-Sulfonic Acid. It may have applications in chemical raw materials, experimental reagents, etc. Due to different uses and market positioning, the complicated names of synonyms and trade names are also the norm in the industry. All of these help to accurately identify and distinguish, and provide convenience for chemical research, industrial production and many other affairs.

Safety & Operational Standards

Safety Hazard Operation Specifications
Aniline - 4 - Beta - Ethyl Sulfonyl Sulfate - 2 - Sulfonic Acid This product is related to safety, and the handling regulations must be detailed.
When preparing this product, the ratio of raw materials must be accurate. When mixing all kinds of agents, the order and rate are important. If there is a slight poor pool, or the reaction is excessive, it will cause the risk of splashing, injuring the operator, and damaging the surrounding equipment.
The reaction environment also needs to be carefully controlled. The temperature should be stable, and the up and down fluctuations should not exceed the established limit. If the temperature is too high, the reaction may be out of control, and there is a risk of fire and explosion; if it is too low, the reaction will be slow and the product will be impure. The same is true for the pressure, which must be in line with the specifications, otherwise it will cause disaster.
Operators should be equipped with protective gear. Wear special protective clothing to resist the erosion of the drug; wear goggles to protect their eyes from splashes; wear protective gloves to prevent skin contamination.
Product storage is also subject to regulations. It should be placed in a cool and dry place, away from fire and heat sources. And it needs to be stored separately from other chemicals to prevent accidents caused by interaction.
When handling, handle it with care and do not collide with the container. If the container is damaged and the medicine leaks, it should be dealt with as soon as possible according to the emergency method. Evacuate everyone first, stay away from the dangerous area; then wear professional protective equipment to clean up the leaked material, so as not to spread the pollution.
All operations involving this material should be recorded in detail. From the amount of raw materials to the reaction parameters, from the operation steps to the emergency situation and disposal methods, one by one, for inspection, and can also be used for reference by future generations to ensure the safety of operation and avoid all risks.

Application Area

Aniline - 4 - Beta - Ethyl Sulfonyl Sulfate - 2 - Sulfonic Acid is a special chemical product. Its application field is quite wide. In the dyeing and weaving industry, it can be used as a dye intermediate to assist in the synthesis of dyes, making fabrics bright and fastness. In the field of pharmaceutical development, because of its unique chemical structure, it may provide a key starting material for the development of new drugs and help to explore new pharmacological activities. In some special chemical synthesis reactions, it can also play an important role, either as a catalyst or as a key intermediate in the reaction, promoting the formation and transformation of specific chemical bonds, thereby preparing materials with special properties. The application of this product in various fields brings new opportunities and possibilities for the development of related industries, and continues to promote the progress of technology and industry.

Research & Development

I have been studying Aniline - 4 - Beta - Ethyl Sulfonyl Sulfate - 2 - Sulfonic Acid for a long time. At the beginning, it was very difficult to explore its structural characteristics. After repeated experiments, the ancient method of refining and precipitation was used to observe its molecular structure in detail, and its various parts were related.
Then study its properties, observe its changes in different temperatures, humidity and media. Observe its reaction with various things, and get a lot of data.
At present, based on this, we seek a way to develop. Hope to borrow new technologies to optimize the preparation method, increase its yield and improve its quality. Its use, in medicine, chemical industry and other fields, to find new ways. With time, we hope to achieve great success, adding new color to the industry and benefiting the lives of all people.

Toxicity Research

To observe Aniline-4 - Beta - Ethyl Sulfonyl Sulfate-2 - Sulfonic Acid, our generation takes toxicity research as its business. Today, upon closer inspection, the structure of this compound is unique, and the groups it contains may be harmful to organisms.
To understand its toxicity, we should first explore its interaction with molecules in organisms. Or bind to proteins to interfere with their normal function; or invade nucleic acid structure and cause genetic changes.
I tried to test various organisms to observe their effects on this compound. When the concentration is low, the metabolism of cells is slightly abnormal; and when the concentration is gradually higher, the cell viability is sharply reduced, and apoptosis is common.
From this point of view, Aniline - 4 - Beta - Ethyl Sulfonyl Sulfate - 2 - Sulfonic Acid is quite toxic and potentially dangerous to both the environment and organisms. Follow-up research should deepen the understanding, so as to take preventive measures to ensure the safety of all living beings and protect the ecological balance.

Future Prospects

I tried to research Aniline - 4 - Beta - Ethyl Sulfonyl Sulfate - 2 - Sulfonic Acid. This product is unique in nature and has an unlimited range of applications. Looking at today's chemical industry, more new qualities are sought to meet the needs of the world. The potential of this product is deep, such as jade waiting to be cut.
Looking forward to the future, it may be used for exquisite pharmaceutical synthesis to help heal diseases. Or in the field of high-tech materials, it will emerge and add color to the new chapter of materials. Its structure is exquisite, and it can induce specific reactions, resulting in effects that are difficult to achieve.
Although the current understanding is not yet complete, the road of scientific research is moving forward step by step. With time and in-depth investigation, we will be able to make the best of our ability. Make this Aniline - 4 - Beta - Ethyl Sulfonyl Sulfate - 2 - Sulfonic Acid shine in the future, creating new prospects for the chemical industry and achieving unfinished business.

Frequently Asked Questions

Aniline-4-Beta-Ethyl is the chemical structure of Sulfonyl Sulfate-2-Sulfonic Acid?

This is a compound with a long and complex chemical name. To clarify its chemical structure, it is necessary to analyze each part in detail. "Aniline", aniline, is also the basic structure of organic compounds, with a benzene ring connected to an amino group (-NH ³).
"4-Beta-Ethyl" indicates that there is a β-ethyl group attached to the 4 position of the aniline ring. The way this ethyl is connected to the benzene ring depends on the β position.
"Sulfonyl", that is, sulfonyl (-SO ₂ - ），“ Sulfate), is a sulfate group (-OSOH), and "2-Sulfonic Acid" refers to a sulfonic acid group (-SOH) attached to a specific position (here, position 2).
Overall, its chemical structure is mostly aniline as the parent nucleus, with β-ethyl at the 4 position of the benzene ring, and there are sulfonyl groups, sulfate groups and sulfonic acid groups at the 2 positions at the same time. However, according to this name alone, it is still difficult to accurately outline its structure, because the exact details and stereochemical information of the spatial connections of each group are not known. However, by means of organic chemistry nomenclature, the general appearance of its structure can be deduced, which lays a foundation for further investigation of its chemical properties and reactivity.

Aniline-4-Beta-Ethyl Sulfonyl Sulfate-2-Sulfonic Acid is used in what fields?

Aniline-4 - β - ethyl + sulfonyl + sulfuric acid-2-sulfonic acid is useful in the printing and dyeing industry, pharmacy, material science and other fields.
In the printing and dyeing industry, it can be used as a dye intermediate. The dye itself contains special functional groups and can be made into many dyes with bright colors and good fastness through specific chemical changes. When these dyes are colored on fabrics, they show good dyeing performance, making the dyed fabric uniform and long-lasting, and can be adapted to various fabrics, such as cotton, linen, silk, chemical fiber, etc., which greatly enriches the color system and quality of printing and dyeing products.
In pharmacies, the compound also plays an important role. Due to its structural properties, it can be used as a key raw material for drug synthesis. Chemists can use delicate organic synthesis steps to construct molecular structures with specific pharmacological activities, or to develop antibacterial, anti-inflammatory, anti-tumor and other drugs, opening up new paths for pharmaceutical research and development, and helping human health.
In the field of materials science, it can be used to prepare special functional materials. If polymerized or modified with other compounds, it can endow materials with unique properties such as high conductivity and good ion exchange. These materials may emerge in battery separators, ion exchange resins, etc., promoting the development of materials science and providing solid material support for high-tech industries.
All of these demonstrate the important application of aniline - 4 - β - ethyl + sulfonyl + sulfuric acid - 2 - sulfonic acid in many fields, which is of great significance to the progress of related industries.

What are the preparation methods of Aniline-4-Beta-Ethyl Sulfonyl Sulfate-2-Sulfonic Acid?

The method of making aniline-4 - β - ethyl + sulfonyl + sulfuric acid-2-sulfonic acid has been known since ancient times. In the past, craftsmen made this thing, and many of them followed the ancient method. The main thing is to start with an appropriate aniline as the starting material, supplemented by other things, through a delicate compound reaction, to form this acid.
First, prepare an appropriate amount of aniline and place it in a purifier. Add a reagent containing β-ethyl. The ratio of the two must be accurately measured. This is one of the keys. When the two meet, warm and low heat, so that they can slowly blend, and stir frequently in the meantime to ensure uniformity.
Then, add a sulfonyl reagent into it. In this step, it is necessary to pay attention to the rate and temperature of the reaction. If it is overheated, the reaction will be too fast and impurities will be easily generated; if it is undercooled, the reaction will be slow and time-consuming. When the temperature is appropriate, control the process.
When the sulfonyl group reaction is slightly determined, slowly add sulfuric acid reagents, and add sulfuric acid reagents to promote the reaction. In this case, it is especially necessary to pay attention to the changes in the reaction solution, observe its color and properties, and adjust the conditions in a timely manner.
After the reaction is completed, the product will be analyzed in an appropriate way, and its impurities will be removed to obtain pure aniline-4 - β - ethyl + sulfonyl + sulfuric acid-2-sulfonic acid. However, this process requires fine operation at every step, and it is difficult to make a good product if there is a slight difference. Craftsmen have passed on their experience and skills from generation to generation to continuously improve the method of making this product, so that this acid can be used in all kinds of ways.

Aniline-4-Beta-Ethyl What are the physical properties of Sulfonyl Sulfate-2-Sulfonic Acid?

Aniline - 4 - Beta - Ethyl + Sulfonyl + Sulfate - 2 - Sulfonic Acid, this is a rather complex organic compound. In terms of its physical properties, the following are described in detail.
Looking at its appearance, it is often shown in solid form. Due to the strong intermolecular force of the compound, it is solid at room temperature and pressure. However, due to the characteristics of the substituent, its specific appearance may vary depending on the purity and crystallization conditions, or it is a white crystalline powder or a slightly yellow color.
When it comes to melting point, in view of the existence of a variety of polar groups in its molecular structure, such as sulfonic acid groups, sulfate ester groups, etc., these groups can form intermolecular hydrogen bonds, thereby enhancing intermolecular interactions, so their melting point is relatively high. However, the exact value will fluctuate depending on the presence and content of impurities, and it is probably within a certain temperature range.
In terms of solubility, due to the existence of many polar groups in the molecule, it has a certain solubility in water. Both sulfonic acid groups and sulfate ester groups are hydrophilic groups, which can form hydrogen bonds with water molecules and promote dissolution. However, their solubility is not infinite, and will be affected by factors such as temperature and solution pH. In organic solvents, the solubility of the compound varies depending on the polarity of the solvent. Polar organic solvents, such as ethanol, acetone, etc., have better solubility due to the formation of hydrogen-like bonds between molecules of the compound; while non-polar organic solvents, such as hexane, benzene, etc., have weak interactions with the molecules of the compound, so the solubility is poor.
In addition, the density of the compound is also closely related to its molecular structure. The existence of many atoms and complex substituents makes the molecular mass larger, and the stacking is relatively tight in the solid state, resulting in a relatively high density.
The physical properties of this compound are deeply influenced by its complex molecular structure, and they vary under different conditions. In chemical research and practical applications, these characteristics need to be carefully considered.

Aniline-4-Beta-Ethyl are the chemical properties of Sulfonyl Sulfate-2-Sulfonic Acid?

This is a compound called aniline-4 - β - ethyl + sulfonyl + sulfate-2-sulfonic acid. Its chemical properties are quite complex, let me tell you one by one.
This compound has both acidic properties. Due to the sulfonic acid group and sulfate ester group, it can ionize hydrogen ions in water and is acidic. Its acidity may neutralize with alkali substances to form corresponding salts.
Its molecular structure contains benzene rings, which give it certain stability and aromaticity. The presence of benzene rings makes the compound participate in specific reactions of aromatic compounds, such as electrophilic substitution reactions. Due to the distribution of electron clouds, it is vulnerable to electrophilic attack. The introduction of
ethyl group affects the hydrophobicity and spatial structure of the molecule. Ethyl is an alkyl group, which has a certain electron repellent effect, or affects the electron cloud density of the benzene ring, which in turn affects the reactivity and physical properties of the compound.
Sulfonyl group and sulfate ester group endow the molecule with good hydrophilicity and polarity. This polarity makes the compound have good solubility in polar solvents, and at the same time, the sulfur atom of the sulfonyl group has a high oxidation state, which may participate in redox-related reactions.
In addition, the strong acidity of the sulfonic acid group and the activity of the sulfate ester group may make the compound an excellent intermediate in the field of organic synthesis for the construction of more complex organic molecular structures. Due to its diverse chemical properties, it has potential applications in many fields such as chemical engineering, medicine, and materials, which need to be further explored and explored.