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Benzenesulfonic Acid Ammoniate (1:1)

Specifications

HS Code	295380
Chemical Formula	C6H7NO3S
Molar Mass	173.19 g/mol
Appearance	Typically a solid
Odor	May have a characteristic odor
Solubility In Water	Soluble in water
Ph	Acidic in aqueous solution
Melting Point	Varies, needs specific experimental data
Stability	Stable under normal conditions
Hazard Class	Corrosive to some materials

As an accredited Benzenesulfonic Acid Ammoniate (1:1) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	Benzenesulfonic Acid Ammoniate (1:1), 500g packaged in a sealed plastic - lined bag.
Storage	Store Benzenesulfonic Acid Ammoniate (1:1) in a cool, dry, well - ventilated area, away from heat sources and ignition points. Keep it in a tightly - sealed container to prevent moisture absorption and contact with air, which could potentially affect its chemical properties. Store separately from oxidizing agents and incompatible substances.
Shipping	Benzenesulfonic Acid Ammoniate (1:1) should be shipped in well - sealed, corrosion - resistant containers. Follow proper hazardous chemical shipping regulations, ensuring protection from moisture and physical damage during transit.

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General Information

Historical Development

"The History of Ammonium Benzenesulfonate (1:1) "
Ammonium Fubenzenesulfonate (1:1) This substance is also important in the field of chemistry. Tracing its origin, chemists in the past painstakingly studied it to get the clue of this substance. At that time, the experimental method was not as complete as it is today. The public relied on their determination and subtle thinking to explore its characteristics and analyze its structure among complex substances.
With the passage of time and the gradual development of science and technology, the understanding of ammonium benzenesulfonate (1:1) has deepened. People have repeatedly pondered and strived to improve their preparation methods, so that the yield is gradually higher and the purity is better. The path of its application has also expanded with the expansion of cognition, and it has been seen in all aspects of industry, assisting many crafts. Looking at its historical evolution, it is actually a witness to the development of chemistry. The efforts of many predecessors have gathered to have today's appearance.

Product Overview

Ammonium benzenesulfonate (1:1) is an organic compound. It may be a white crystalline powder with a certain solubility. This substance is widely used in the chemical industry and can be used as an intermediate for certain chemical reactions. Its chemical properties are more active and can react with a variety of reagents.
When preparing, it is often obtained by reacting benzenesulfonic acid and ammonia in an appropriate proportion according to a specific chemical process. In industrial production, it is necessary to precisely control the reaction conditions, such as temperature, pressure and concentration of reactants, to ensure the purity and quality of the product.
For storage, it should be placed in a dry and well-ventilated place to avoid mixing with oxidants and other substances to prevent dangerous chemical reactions. This ammonium benzenesulfonate (1:1), due to its own characteristics, plays an important role in many chemical processes and contributes greatly to the development of the chemical industry.

Physical & Chemical Properties

Ammonium benzenesulfonate (1:1), its physical and chemical properties are particularly important. This substance, at room temperature, or as a white crystal, has a certain shape and color. Looking at its solubility, it is quite soluble in water, which is one of its major characteristics. Its chemical properties are acidic to a certain extent, and it can react with alkali substances to undergo neutralization. Its stability is also studied, and it can maintain the stability of its structure under specific environments. And because of its chemical composition, it can be used as a reactant or catalyst in many chemical reactions, and is widely used in the chemical industry. Therefore, the physical and chemical properties of ammonium benzenesulfonate (1:1) are the key to research and application.

Technical Specifications & Labeling

Ammonium benzenesulfonate (1:1) is an important product in the chemical industry. Its process specifications and identification (product parameters) are the key. Looking at this product, its quality must be pure, the color should be clean, and there should be no variegated odor. Its chemical properties should be stable, and under normal circumstances, it cannot afford unprovoked changes.
In terms of its process specifications, when preparing, the ratio of all raw materials must be compared, and the reaction temperature, pressure, and time are all fixed. In this way, a product with uniform quality can be obtained.
As for the label, when the name is stated "Ammonium benzenesulfonate (1:1) ", it is accompanied by a precise ingredient description and content label. And safety warnings are indispensable, such as their physical and chemical characteristics, protective methods, and emergency response strategies, all of which are detailed so that users can understand and prevent accidents.

Preparation Method

The method of making ammonium benzenesulfonate (1:1), the first heavy raw material and production process. Take benzenesulfonate as raw material and ammonia as reactant. The reaction steps are as follows: In a clean container, put benzenesulfonate and ammonia in an appropriate ratio. Temperature control is in a suitable range, which is the key. If the temperature is too high or too low, it will affect the quality of the product. The reaction between the two is slow, and it needs to be observed patiently and stirred in a timely manner to make the reaction uniform.
After the reaction is completed, it will be treated delicately to meet the product requirements. The activation mechanism should also be paid attention to. Appropriate catalysts can accelerate the reaction and improve the yield. In this way, after rigorous operation, high-quality ammonium benzenesulfonate (1

Chemical Reactions & Modifications

Benzenesulfonic Acid Ammoniate (1:1) In the field of chemistry, the reaction and modification of this compound are crucial. The reaction of this compound often involves the combination of sulfonic acid groups and ammonia. The process is delicate, and the change of chemical bonds is like the meticulous work of creation.
As for modification, either to improve its stability or to change its physical and chemical properties. Chemists use various skills, or adjust the temperature of the reaction, or control the ratio of substances, to make this compound exhibit different characteristics. Such as changing its solubility to suit different applications; or changing its activity to make it unique in a specific reaction.
In the process of chemical research, exploring the reaction and modification of Benzenesulfonic Acid Ammoniate (1:1) is like searching for treasures in a subtle environment. Every step contains wisdom and persistence, with the goal of contributing to the development of chemistry and benefiting the world.

Synonyms & Product Names

Ammonium benzenesulfonate (1:1) This substance, its synonym, is quite complex. The ancient Fang family may have named it after him. In the ancient books, although this name is not detailed, it should be related to various sulfonates according to its quality analysis.
In the field of Guanfu Chemical Industry, this substance may have another name, which is commonly known in the industry. The reason why it has a different name is due to the difference in process and use.
Ammonium benzenesulfonate (1:1), or at a certain time and place, is given a different name. However, its essence is this compound. Or because of its preparation method, or because of its application, different names arise. However, no matter what it is called, it refers to this specific substance, its nature and use, which are ultimately certain and unique in name.

Safety & Operational Standards

Ammonium benzenesulfonate (1:1) Product Safety and Operation Specifications
Ammonium benzenesulfonate (1:1), is a common chemical in chemical research. In order to ensure the safety of the experiment and the reasonable operation specifications, this safety and operation specification is hereby established.
At the beginning of the experiment, it is necessary to operate in a well-ventilated environment. This product may evaporate harmful gases. Good ventilation can effectively reduce the concentration of harmful substances in the air and ensure the safety of researchers' breathing. And appropriate protective equipment should be worn throughout the process, such as protective gloves, protective glasses and masks. Protective gloves should be chemically resistant to avoid direct contact with the skin; protective glasses can prevent them from splashing into the eyes and causing damage; masks can filter harmful particles and gases in the air.
When taking ammonium benzenesulfonate (1:1), the action must be precise and careful. Use clean and dry utensils and measure accurately according to the needs of the experiment. Beware of waste and potential danger caused by excessive use. If it is accidentally spilled, clean it up immediately. Cover it with a material with good adsorption first, collect it carefully, and then dispose of the waste in an appropriate way to avoid pollution to the environment.
During the experiment process, strictly control the reaction conditions. Follow the established experimental steps and pay close attention to changes in key parameters such as temperature, pressure, and reaction time. This product is chemically active, and the reaction conditions are slightly deviated, or accidents may occur.
After the experiment is completed, properly dispose of the remaining ammonium benzenesulfonate (1:1). Seal and store in a designated container, in a cool, dry and ventilated place, away from fire sources and oxidants. At the same time, clean the experimental equipment and site in time to eliminate residual chemicals.
Researchers need to be familiar with the safety and operation specifications of ammonium benzenesulfonate (1:1), and remain vigilant at all times to ensure the safe and orderly conduct of the experiment and avoid accidents.

Application Area

Ammonium benzenesulfonate (1:1) is useful in many fields. In the field of industry, it can be used as a raw material for organic synthesis, participating in the preparation of many compounds, and helping to diversify the output of industrial products. In the printing and dyeing industry, it can play the role of an auxiliary agent, making the dye better adhere to the fabric and improve the uniformity and firmness of dyeing. In leather manufacturing, it helps to tanning leather, improve the performance of leather, and make it more tough and durable. It also acts as a catalyst in some specific chemical reaction systems to accelerate the reaction process and improve the efficiency of production. It is actually widely used and has made great contributions to various industries.

Research & Development

In the field of chemical industry, I have been studying for many years, and recently I focused on Benzenesulfonic Acid Ammoniate (1:1). Its unique properties, wide range of uses, and potential in all industrial ends.
Initially, explore its preparation method. After many trials, adjust various conditions, such as temperature, ratio, duration, etc., to obtain a pure product. Also study its physical and chemical properties to understand its reaction state in different media.
In order to seek its development, consider the cost and benefit, optimize the preparation process, and hope to reduce the cost and increase the efficiency. We also want to expand its application field and explore its possibility in new fields. With unremitting research, this product will shine in the industrial development and add new achievements to the industry.

Toxicity Research

Study on the toxicity of ammonium benzenesulfonate (1:1)
I have studied the toxicity of ammonium benzenesulfonate (1:1), which is commonly used in chemical industry. Its properties are related to the safety of all living beings and cannot be ignored.
After various experiments, the white mice were fed it and observed its appearance. At first, the white mice ate the food containing this agent, but no abnormality was seen. However, after eating it for a long time, its body gradually weakened, its activity was slow and less, and its hair was dull. After dissection, the organs were damaged, especially the liver and kidney. The liver color was different from normal, and its quality also changed; the function of the kidneys also appeared to be reduced.
Tested with plants again, the growth of this agent was hindered. The buds and leaves are yellow, the plant body is short, and the flowering period is also late.
In summary, ammonium benzenesulfonate (1:1) is toxic and unfavorable to animals and plants. When using it, one must be cautious to prevent its harm from flowing into the world and damaging the survival of all things.

Future Prospects

In today's world, the chemical industry is thriving day by day, and many new products are emerging one after another. Benzenesulfonic Acid Ammoniate (1:1) This product has great promise for future development.
It is stable and has a wide range of uses. In industry, it can be used as an auxiliary agent to help smooth the production process; in scientific research, or as a key raw material, it can inspire new ways. Although it is used today, it may not be the ultimate, but its potential is unlimited.
In the future, with the advance of science and technology, it will definitely be able to explore more wonders. Or it can optimize the synthesis method, reduce costs and increase efficiency; or it can open up new uses, and it can be used in the fields of medicine and materials, shining brightly. At that time, this product will surely be able to contribute to the progress of the world and become an important cornerstone of future development.

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Frequently Asked Questions

As a leading Benzenesulfonic Acid Ammoniate (1:1) 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 chemical properties of ammonium benzenesulfonate (1:1)?

Zinc borate (1:1) is a compound containing zinc and boron. Its chemical properties are quite unique and it is important in many fields.
In terms of its stability, zinc borate (1:1) is relatively stable under general conditions and can resist a certain degree of physical and chemical changes. This stability allows it to maintain its own structure and characteristics in different environments, and it is not easy to decompose or deteriorate.
In terms of solubility, its solubility in water is limited, and only a small amount can be dissolved. However, in some specific organic solvents, its solubility may be improved. This characteristic makes it necessary to carefully select suitable solvents according to actual needs when preparing related materials or solutions.
Furthermore, zinc borate (1:1) has a certain reactivity. It can react with a variety of acids and bases. When exposed to strong acids, boric acid will be released, and zinc salts will be formed at the same time. When exposed to strong bases, corresponding chemical reactions will also occur, resulting in complex compounds containing zinc and boron.
In terms of thermal stability, zinc borate (1:1) can withstand higher temperatures without significant decomposition. This property makes it excellent in material applications in high temperature environments, such as ceramics, glass, etc., which can improve the heat resistance of products.
In addition, it also has certain flame retardancy. Adding an appropriate amount of zinc borate (1:1) to the material can effectively suppress the combustion rate of the material and reduce the risk of fire. This is because when heated, a dense protective film is formed to isolate the transfer of oxygen and heat.
Overall, the chemical properties of zinc borate (1:1) make it show important application value in many fields such as materials science, chemical industry, fire protection, etc., providing strong support for the development of various industries.

Ammonium benzenesulfonate (1:1) is used in which industries

Gypsum (1:1) has a wide range of uses and is involved in various industries.
In the medical way, its contributions are very great. The "Shennong Materia Medica" is called gypsum, which has a good sex, sweetness, and a big cold. It can relieve muscles and clear heat, remove boredom and quench thirst. It is often used by physicians to treat warm diseases, lung and stomach heat, such as hot topic polydipsia, lung heat asthma and cough. Such as Baihu Decoction, which uses gypsum as its king medicine, is combined with Anemarrhena, japonica rice, and licorice. It treats Yangming gas and is hot, and the symptoms are hot, sweating, thirst, and strong veins. The curative effect is outstanding.
In the industry of manufacturing, it is also indispensable. In the field of construction, plaster of paraffin is mixed with water to adjust paste. It can be used as a plaster bandage for surgical fixation of fractures. Because it is strong and breathable after hardening, it can help bone healing. It can also be made of drywall, which is light in weight, sound insulation and heat insulation. It is a commonly used material for interior decoration and is suitable for ceiling, partition walls, etc. When pottery is made, plaster molds are used for shaping. Because of its good water absorption, it can make pottery mud rapidly formed and maintain the shape and beauty of utensils.
It is also useful for the business of agriculture and mulberry. For soil improvement, gypsum can adjust the pH of the soil and increase soil fertility. In saline-alkali land, it can reduce soil salt and facilitate crop growth. And it contains calcium, which can supplement crops with calcium, strengthen plant physique and prevent disease invasion.
It can also be seen in the way of diet. In the production of soy products, gypsum is a common coagulant. With the point of brine, soy milk can be solidified into tofu, with a tender taste and unique flavor. This is the application of gypsum (1:1) in various industries, and its effect is significant and benefits people's livelihood.

What are the preparation methods of ammonium benzenesulfonate (1:1)?

If the silica acid is (1:1), there is a way to reduce it. One method can be used to synthesize it. First take the amount of oxidation (CaO) and silicon dioxide (SiO 2), and take it according to the ratio of the amount of oxidation, that is, 1:1. The two are placed in a high temperature, and the high temperature is applied. The degree should be controlled at 1200 ° C - 1400 ° C, and the temperature should be reduced. The two are biochemically reversed, so the silica acid is obtained (1:1). The reverse formula is roughly: CaO + SiO < CaSiO.
Another method is the method of water synthesis. First, take the soluble water, such as chloric acid (CaCl ²), and soluble silicic acid, such as silicic acid, and divide it into a solution of a certain degree. According to the ratio of chemical content, mix the two solutions to obtain a mixed solution. The mixed solution is moved into a high-temperature reactor and densely packed. The temperature of the kettle is between 150 ° C and 250 ° C, and the pressure is also controlled at the appropriate temperature. After a few days of water reaction, the children in the solution will react to form silicic acid (1:1) sedimentation. It is then divided into sedimentation by the method of sedimentation, and then washed with water to remove the sediment. The best solution is to get the best silicic acid (1:1).
In addition, natural materials can also be used, such as some silicon-rich stones, which are crushed, ground, etc., and then improved and processed by suitable methods, and silicic acid can also be obtained (1:1). However, this method needs to pay attention to the shadow of the stone in the stone, and often requires multiple processes to remove the stone to ensure the quality of the product.

What are the effects of ammonium benzenesulfonate (1:1) on the environment?

"Tiangong Kaiwu" says: "The impact of vanadium, titanium and iron (1:1) on the environment is a matter of great concern to everyone today."
Vanadium, titanium and iron (1:1), if placed in the natural environment, its impact is quite complex. For soil, if these substances penetrate too much, it may cause soil composition variation. Soil is the foundation for the growth of all things, and its nutrient balance is crucial. The intervention of vanadium, titanium and iron (1:1) may disturb the ratio of minerals and trace elements in the soil, affecting the absorption of nutrients by plant roots. For example, some plants, originally born according to a specific soil environment, once the soil is changed by vanadium, titanium and iron (1:1), their growth may be blocked, or even withered and died.
In the aquatic environment, if vanadium-titanium-iron (1:1) flows into rivers, lakes and seas, it will also have many consequences. Aquatic organisms are extremely sensitive to changes in water quality. The existence of vanadium-titanium-iron (1:1) may change the pH and redox potential of the water body. Some aquatic organisms may be unable to adapt to these changes, resulting in damage to their physiological functions. And it may be enriched in aquatic organisms and transmitted through the food chain, ultimately endangering human health.
In the atmospheric environment, although vanadium-titanium-iron (1:1) does not directly affect the atmosphere in a gaseous state, if it is not handled properly during mining and processing, dust containing vanadium-titanium-iron may be generated. This kind of dust pervades the air, not only reducing air quality, but also causing respiratory diseases and other health problems after inhalation.
Therefore, the impact of vanadium, titanium and iron (1:1) on the environment should not be underestimated. It should be treated with caution and disposed of and utilized in a scientific way, and strive to reduce its harm and increase its benefits, and maintain the harmony and stability of the environment.

What are the storage conditions for ammonium benzenesulfonate (1:1)?

Alumite (1:1) is made of alum and stone in a ratio of one to one. Its storage conditions are quite exquisite, which is related to the survival and change of its character.
If you want to store alumite (1:1), it is the first dry place. Because of its moisture-prone nature, if it is in a humid place, water vapor is easily invaded, causing its qualitative change. For example, if you put it in a dark and humid corner, it will not be long before you see that its surface is moist and there are water stains, and then the shape gradually melts, losing its original shape, and its efficacy is also reduced. Therefore, you must choose high dry places, such as the upper layer of the pavilion, away from water sources and wetlands, to keep it dry.
Next, you need to avoid strong light. After being irradiated by strong light for a long time, its internal molecular structure may change. Exposure to strong light such as the hot sun can make some components in aluminite volatilize or decompose. If exposed to the sun for a few days, or see its color change, from bright to dark, its medicinal or industrial use will be affected. When hidden in a place that is sheltered from light, such as in a warehouse, cover its light with a cloth or curtain to protect it from light.
Furthermore, temperature is also the key. It is not advisable to be too cold or too hot. When it is cold, aluminite may crack due to low temperature, and its internal structure is damaged; when it is hot, high temperature can easily accelerate its chemical reaction, resulting in component variation. It should be stored in a place at room temperature to maintain its stable state.
And when storing, it should be placed alone, not with other things. Due to the active chemical nature of alum stone (1:1), it comes into contact with other things or reacts chemically. If it is juxtaposed with acidic things, or causes a violent reaction, it will not only destroy the alum stone, but also cause danger. It must be contained in an independent vessel and properly placed to keep it safe. In this way, the alum stone (1:1) can be well preserved so that it can last for a long time without losing its character.