Benzenesulfonic Acid Imide

Lingxian Chemical

Specifications

HS Code	468301
Name	Benzenesulfonic Acid Imide
Chemical Formula	C6H5NO3S
Molar Mass	173.17 g/mol
Appearance	White crystalline powder
Odor	Odorless
Solubility In Water	Slightly soluble
Melting Point	226 - 229 °C
Boiling Point	Decomposes before boiling
Density	1.59 g/cm³
Acidity	Weakly acidic
Stability	Stable under normal conditions

Packing & Storage

Packing	Benzenesulfonic Acid Imide: Packed in 1 - kg bags for secure storage and handling.
Storage	Benzenesulfonic acid imide, also known as saccharin, should be stored in a cool, dry place away from heat sources and direct sunlight. Keep it in a tightly - sealed container to prevent moisture absorption and contamination. Avoid storing it near reactive substances. Proper storage helps maintain its chemical stability and ensures safe handling.
Shipping	Benzenesulfonic Acid Imide is typically shipped in well - sealed containers, compliant with chemical transportation regulations. Packaging safeguards it from damage, ensuring safe transit to prevent spills and maintain product integrity.

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General Information

Historical Development

The rise of benzenesulfonimide, its material, began when modern chemistry flourished. At that time, various sages worked tirelessly in the field of organic synthesis, striving to explore new substances.
At the beginning, scholars paid attention to the reaction mechanism of related compounds, and after repeated experiments and analysis, they gradually obtained the method of preparation. The initial method was complex and ineffective, but everyone was not discouraged and moved forward.
With the advance of science and technology, the process improved, and the yield and purity of benzenesulfonimide were greatly improved. Its application in the pharmaceutical and chemical industries has also gradually expanded and deepened. From this perspective, the development of this compound is actually the crystallization of the wisdom and sweat of chemists of all dynasties, adding a brilliant stroke to the path of scientific evolution.

Product Overview

Product Overview
Imine benzenesulfonate is also an organic compound. Its specific nature and exquisite structure are widely used in various fields of chemical industry.
Looking at its structure, the benzene ring is the group, and the sulfonic acid group is attached to the imine group, interacting, resulting in its unique properties. Physical properties, under normal conditions, or in a crystalline state, white and pure, with a certain melting point, in a specific solvent, the solubility is considerable, which is convenient for reaction operation.
Chemical activity, the sulfonic acid group is acidic, and the imine group has an active reaction check point. The two cooperate and can participate in various organic reactions. In the field of catalysis, it can be used as a high-efficiency catalyst to accelerate the reaction process and increase the yield. In the synthesis of materials, it can be a key intermediate, introducing a unique structure and adding new properties to the material.
However, the synthesis of this substance requires fine craftsmanship, rigorous temperature control, pressure control, and selection of appropriate reagents and conditions to obtain high-purity products. And its storage and transportation also need to be cautious to avoid contact with unsuitable substances and ensure its stable properties.
In short, imine benzenesulfonate has great potential in the field of chemical research due to its unique structure and properties. It needs to be further explored by researchers to expand its application and contribute to the development of the industry.

Physical & Chemical Properties

Imine benzenesulfonate is an organic compound. Its properties have both physical and chemical characteristics. Looking at its physics, at room temperature, or in a crystalline state, the color is white and shiny, and the texture is solid. Smell, there is a slight odor. Its melting boiling point also has a certain number. Due to its structure, the melting point is suitable, causing heating to a certain degree and melting. The transformation of this melting state is related to the change of intermolecular forces.
As for chemical properties, imine benzenesulfonate is active. It contains a specific functional group, which is easy to interact with other substances in the reaction. It can be neutralized with bases to form corresponding salts. It can also participate in the reaction of nucleophilic substitution. Due to the distribution of electron clouds of functional groups, it is easy to attract the attack of nucleophilic reagents, resulting in structural changes. In the field of organic synthesis, it is a usable raw material. With its physical and chemical characteristics, it is widely used in the production and research of various chemicals.

Technical Specifications & Labeling

Imine benzenesulfonate is also a chemical product. Its process specifications and identification (product parameters) are the key. The process specifications of this product are related to the purity of the raw material, the temperature of the reaction, and the degree of time. If the raw material is pure, the product is good, and the reaction temperature is timely and the time is appropriate, and the high-quality imine benzenesulfonate can be obtained.
As for the identification (product parameters), it is necessary to clarify its characteristics, such as color, state, and taste. It is also necessary to detail the purity geometry and what impurities are, which are all related to the use of the product. And its physical and chemical properties, such as the point of melting and boiling, and the solubility, cannot be ignored. Precise process specifications and clear identification (product parameters) are the foundation for the quality of benzenesulfonimide, which is of great use in the chemical industry.

Preparation Method

To make Benzenesulfonic Acid Imide, the raw materials and production process are very critical. Benzenesulfonic acid and ammonia water are used as the initial raw materials, and through a delicate combination method, the two are slowly blended in a specific container, controlled at a suitable temperature and pressure.
First, benzenesulfonic acid reacts slowly with ammonia water, which is the first step in preparation. During the reaction, it is necessary to pay close attention to temperature changes, and do not make the temperature rise or drop sharply to prevent it from affecting the purity of the product. Wait for the two to fully react to form an intermediate product.
Then, the intermediate product is processed, and after specific steps, it is ingeniously converted into Benzenesulfonic Acid Imide. In this process, it is necessary to precisely control each reaction link, from the proportion of raw materials to the reaction time. In this way, Benzenesulfonic Acid Imide can be prepared according to this rigorous method, achieving the expected quality and yield.

Chemical Reactions & Modifications

The imine benzenesulfonate is also a wonderful substance. Its transformation and modification, scholars have studied more.
In the past, it was studied and processed, and the best way to make it. Initially, the conditions should be harsh, and the yield is not good. After various trials and errors, explore the changes in temperature, pressure, and catalyst to adjust the path. If the temperature is controlled at a suitable value, it should be stable and smooth, and the yield will gradually rise.
As for the modification, hope that it obtains heterogeneity. Add groups and change its structure. Make it have better solubility and thermal stability. After repeated modification, the best performance is obtained. Therefore, imine benzenesulfonate can be used more widely in various fields, adding new color to the chemical industry. The study of its transformation and modification is endless. It is necessary to continue to explore new frontiers and expand its use.

Synonyms & Product Names

Benzenesulfonic Acid Imide, its synonymous name and the name of the commodity, are both important for chemical research.
Covers chemical substances, the names are similar or different, or according to their nature, or according to their structure. Benzenesulfonic Acid Imide, or have another name, this is known to the academic community. Its synonymous name, so clear its quality, help researchers to understand its nature and use. The name of the commodity is related to the circulation of the city and the needs of the industry.
When studying this substance, you must carefully examine its synonymous name, check its records in various books, and seek its authenticity. The name of the commodity should also be reviewed to clarify its state in the market. Only in this way can we make progress in the study of chemistry and gain some understanding in its application. Through its synonyms and commodity names, the road of chemistry can be far-reaching.

Safety & Operational Standards

Specifications for the Safety and Operation of Benzenesulfonic Acid Imide Products
Benzenesulfonic Acid Imide (Benzenesulfonic Acid Imide) is also a genus of chemical products. Its preparation, use and storage links should be carefully regulated and should not be ignored.
When preparing, all kinds of raw materials must be well selected and carefully matched. The temperature, pressure and rate of the reaction should be carefully measured by the instrument. If the temperature is too high, the reaction may become more violent, causing danger; if the pressure is not balanced, it may also cause the explosion of the container. And during the reaction, poisonous gas or health should be well ventilated to prevent poison from entering the body and harming health.
When using, use protective gear such as gloves, eyepieces, and protective clothing. If the substance touches the skin, rinse quickly with water. If it enters the eyes, it must be flushed urgently and seek medical treatment. As for the equipment used, it must be cleaned first to avoid impurities from mixing in and messing with its nature.
The method of storage is also important. Keep it in a cool, dry and ventilated place to avoid fire and heat. Store it in a sealed device to prevent it from combining with external objects and changing its quality. It must also be separated from strong oxidation and reduction substances to avoid unexpected reactions.
When it comes to benzenesulfonimide, everyone should abide by this safety and practice rule and not slack off. This is not only for one's own safety, but also for the whole of the surrounding. In the way of chemistry, safety is the first priority and regulation is the norm, which cannot be ignored.

Application Area

Imine benzenesulfonate has a unique nature and is widely used. In the field of medicine, it can assist in the research of new drugs, or as a remedy for diseases. Pharmaceutical work, with its characteristics, synthesizes formulas to seek the essence of drug efficacy.
And in the dyeing and weaving industry, it can be a mordant dyeing aid to make the color firm and bright. Fabrics are supplemented by it, and the color lasts for a long time, increasing the value of their products.
Furthermore, in the creation of materials, it is also possible. It can adjust the properties of materials to make them strong and tough, or have a specific quality, and is suitable for the creation of various utensils.
From this perspective, imine benzenesulfonate is used in medicine, dyeing and weaving, and materials, and it is an essential product in today's chemical industry.

Research & Development

In recent years, in the study of chemical substances, there is a substance called Benzenesulfonic Acid Imide, which has attracted my attention. This substance has unique characteristics, its structure is exquisite, and it contains benzene ring and sulfonimide groups.
I tried to explore the synthesis method carefully. At the beginning, benzenesulfonic acid and amines were used as raw materials, and after many attempts to adjust temperature, pH and other conditions, the resulting product was impure. After repeated tests, improved processes, and specific catalysts were used to obtain Benzenesulfonic Acid Imide with high purity.
Looking at its application in the field of medicine, it is expected to develop new drugs because of its specific biological activities. In terms of materials, it may improve material properties. Although the current research is still in the early stages, the prospects are promising. I will make unremitting efforts to promote the development of this substance in various fields and contribute to scientific progress.

Toxicity Research

The toxicity of benzenesulfimide is a matter of great importance to the health of everyone and the state of the environment. We have carefully investigated the nature of this thing and explored its changes in different situations. After many experiments, we have observed its contact with other things, and in various media, we have studied the release and transmission of its poison.
If benzenesulfimide enters the living body, it may cause disturbance of function. Looking at microorganisms, we can see the state change of cells and the discipline of metabolism. And in the environment, its decomposition process is slow, and it accumulates or stains water and soil for a long time, endangering the residence of all living things. Although this thing has a wide range of uses, the risk of toxicity cannot be ignored. It is necessary to deal with it cautiously, set strict regulations to control its use, ensure the safety of all beings, maintain the tranquility of the environment, and reduce the benefits and harms before it is a long-term policy.

Future Prospects

Benzenesulfonic Acid Imide has shown extraordinary use in this world. It has potential in various fields.
Looking to the future, its development prospects are quite promising. In industrial manufacturing, it may be possible to further optimize the process, reduce costs and increase efficiency, so that its output can be greatly increased to meet the growing demand. In the path of scientific research and exploration, it is expected to use its unique properties to open up new research directions, explore unprecedented functions, and add bricks to the progress of science. In terms of people's livelihood, it may be able to derive more beneficial products and improve the quality of life of everyone.
Our generation should study diligently and seize this opportunity to make Benzenesulfonic Acid Imide shine in the future, bring more well-being to the world, and live up to the expectations of the times.

Frequently Asked Questions

What is the chemical structure of benzenesulfonimide?

The chemical structure of calcium sulfoxide is particularly delicate, and it is formed by connecting various atoms in a specific order and manner.
In this case, carbon, hydrogen, oxygen, calcium, sulfur and other atoms perform their respective duties and are connected to each other. Carbon is often the basis of the structure, and with its unique bonding characteristics, many atoms are connected to construct complex carbon chains or carbon ring structures. Hydrogen atoms are mostly attached to the periphery of the carbon chain to meet the bonding requirements of carbon and maintain the stability of the overall structure.
Oxygen atoms are also crucial in it, or form carbonyl, hydroxyl and other functional groups with carbon. Carbonyl groups have unique chemical activities and can participate in many chemical reactions; hydroxyl groups can not only affect the polarity of molecules, but also form hydrogen bonds with other molecules, which have a significant impact on the physical and chemical properties of substances.
Calcium atoms in this structure are connected to other parts by ionic bonds, giving the whole molecule a specific charge distribution and stability. Its interaction with surrounding atoms affects the spatial configuration and chemical activity of molecules.
Sulfur atoms form a sulfoxide structure, in which sulfur and oxygen are connected in a special bonding way, giving the molecule a unique electron cloud distribution and reactivity. The existence of sulfoxide groups makes molecules exhibit specific properties in many reactions, or affects the solubility and stability of molecules and other physical properties.
The atoms combine so cleverly to form the unique chemical structure of calcium sulfoxide cane tip, which determines its unique properties and functions in the fields of chemistry and biology. It is a wonderful construction in the microscopic world.

What are the main physical properties of benzenesulfonimide?

Borax, or sodium borate salt, is a common boron-containing mineral in nature. It has many important physical properties and has a profound impact on human production and life.
Borax is in the form of colorless translucent crystals or white crystalline powder, which makes it easy to handle and apply in many fields. Its texture is relatively soft, with a Mohs hardness of about 2 to 2.5, which is similar to the hardness of gypsum. It can leave marks with a light scratch. This soft property is easy to process and can be molded into different shapes according to specific manufacturing processes.
Borax has considerable solubility in water. At room temperature, about 20 grams of borax can be dissolved per 100 grams of water. When the temperature rises, the solubility increases significantly. This good solubility makes borax easy to prepare into solutions, which are used in chemical, pharmaceutical and other industries for chemical reactions, pharmaceutical preparations, etc.
The melting point of borax is about 741 ° C, and the boiling point is as high as 1575 ° C. A higher melting and boiling point means that it has strong stability in high temperature environments. In the metallurgical industry, borax is used as a flux, which can reduce the melting point of metals at high temperatures, improve metal fluidity, and make metal smelting more efficient.
The borax aqueous solution is weakly alkaline, with a pH value of about 9.1 to 9.3. The weakly alkaline is widely used in industry and daily life. For example, the textile industry is used for fabric treatment, which can adjust the pH value of dye solution and help dyes adhere to fabrics better. In household cleaning, borax can be used as a detergent, and the weakly alkaline helps remove oil stains and stains.
The borax crystal has a certain luster, often shows a glassy luster, and is crystal clear under light. This optical property makes it useful in the fields of jewelry and decorative materials. After special processing, it can be made into ornaments to add beauty.

What are the common applications of benzenesulfonimide in industry?

Sodium silicate, also known as water glass, is involved in a wide range of industrial uses.
First, in the paper industry, it is indispensable. It can be used as a sizing agent for paper to enhance the water resistance and strength of paper. Taking the analogy of ancient papermaking, if paper is compared to silk, sodium silicate is like the agent for sizing. After its treatment, the paper is covered with tough armor, which is not afraid of moisture and is durable.
Second, in the field of detergents, it is also a key auxiliary agent. It can help detergents improve their decontamination ability and soften water quality. Just like raccoon clothes in ancient times, adding sodium silicate to water is like finding a magical saponin, which increases the decontamination power and makes clothes cleaner.
Third, in the construction industry, sodium silicate is used in a variety of ways. It can be used as a quick-setting waterproof agent. When repairing houses and protecting dams, in case of leakage, this agent is applied, such as a magic weapon falling from the sky, quickly stopping water and ensuring the safety of the building; it can also be used as acid-resistant cement and heat-resistant mortar raw materials, so that the building is stable like a rock in the environment of acid corrosion and high temperature, and it is not damaged for a long time. It is like a shield against erosion for the building.
Fourth, in the foundry industry, sodium silicate is often used as a binder. In the production of molds, the sand grains are bonded together, just like a skilled craftsman splicing wood parts by tenon and mortise, so that the casting is strong and formed, ensuring the accuracy of the casting, and allowing the utensils to be perfectly formed.
Fifth, in the textile industry, sodium silicate can be used as a fabric fire retardant treatment agent. Attach fire protection to fabrics, such as draping fabrics with fireproof coons, preventing them from burning in case of fire, and protecting the safety of textile products, just like building an invisible firewall for fabrics.
All these, sodium silicate plays an important role in all parts of the industry, such as the spread of stars, illuminating the way forward in many fields of industry.

What are the preparation methods of benzenesulfonimide?

The method of using Dendrobium is not the same, and each is suitable. The description is as follows:
Dendrobium is slightly cold in nature and sweet in taste. It has the effect of clearing the water and promoting the stomach and body fluid. The method of doing this is to collect Dendrobium, remove the root and handle, etc., and wash it. If you want to get the product for use, you can directly store it in the warehouse. If it is turned into a dry product, there are different ways. First, Dendrobium can be placed in the common warehouse. This is one of the ancient methods, which can preserve its natural nature to the greatest extent. Second, it can also be dried and dried. You need to pay attention to the heat. Bake it with a warm fire at the beginning, so that the water vapor will come out, and its color will change until it is dry and not dried. Cease fire, and wait for its natural resurgence, and then bake it again and again, until it is dry and transparent. The ground is crispy, so it is easy to save and use.
, that is, sulfuric acid pentahydrate, its method often starts with. The ancient method, or the stone containing, such as malachite, etc., is cooked together with sulfuric acid. When malachite encounters sulfuric acid, its carbonated acid component Acid reaction, generate a sulfuric acid solution, remove it, steam, until the solution is cold, There are crystals precipitated, this is. There is also a method of using dilute sulfuric acid, which is reversed in the presence of empty space. If it is dissolved in acid, a solution of sulfuric acid is also obtained. According to the previous method, the crystalline solution can be obtained.
To the arsenic, that is, arsenic trioxide. Most of the ancient arsenic is extracted from arsenic. Arsenic is dug out, and if it is broken, it is placed in a dense crucible and other containers, and then added. Arsenic is subjected to stains, among which, when cold, it is condensed on the upper part of the container, and the essence of the product can be obtained by scraping. However, this product is poisonous, and it should be used with caution to prevent poisoning.
Of course, Dendrobium, Dendrobium, and Arsenic each have their own ingenious methods, and they are used appropriately. They can achieve their effectiveness in terms of performance, work, etc. However, they also need to abide by the requirements of ancient laws to ensure their safety.

What are the effects of benzenesulfonimide on the environment and human health?

Garlic sprouts ethyl acetate is involved in both the environment and human health.
First talk about the environment. Garlic sprouts ethyl acetate in the preparation or use process, if improper operation, it volatilizes in the atmosphere, or causes air pollution. It is volatile, escapes into the air, or interacts with other chemicals, resulting in complex chemical reactions, or damages the quality of the atmospheric environment. And if the production wastewater is not properly treated, the water containing this substance is discharged into the water body, or disturbs the aquatic ecology. Or cause water body eutrophication, or poison aquatic organisms, and reduce biodiversity. Furthermore, if its waste is improperly disposed of, buried in the soil, or seeps into the soil, affecting the soil quality and harming plant growth.
As for the effect on human health. Ethyl acetate of garlic sprouts has a certain irritation. If people are in an environment with high concentrations of this substance for a long time, its volatile gas may irritate the eyes, nose, throat and other mucous membranes, causing discomfort, such as eye astringency, runny nose, itchy throat, etc. What's more, it may cause allergic reactions to the respiratory tract, causing asthma and other diseases. If ingested orally, it also affects the digestive system. Or irritate the stomach, causing stomach pain, nausea, vomiting, etc. Long-term exposure or ingestion may damage the function of important organs such as the liver and kidneys. When the human body metabolizes this substance, it may exhaust the liver and kidneys, hindering the function of detoxification and excretion. However, if it is in the normal and appropriate contact range, and the environment is well ventilated, production and use compliance, the threat to human health may be minimized. Therefore, the application of garlic sprouts ethyl acetate should be done with caution, and the protection of the environment and human body should be taken seriously to prevent its harm.