Benzenesulfonic Acid, Ammonium Salt (1:1)

Lingxian Chemical

Specifications

HS Code	305997
Chemical Formula	C6H7NO3S
Molar Mass	173.19 g/mol
Appearance	White to off - white solid
Solubility In Water	Soluble
Ph	Slightly acidic in aqueous solution
Melting Point	Decomposes
Odor	Odorless or faint odor
Density	Approx. 1.3 - 1.4 g/cm³
Stability	Stable under normal conditions
Hazard Classification	Irritant to eyes, skin and respiratory system

Packing & Storage

Packing	500g of Benzenesulfonic Acid, Ammonium Salt (1:1) in tightly - sealed plastic bags.
Storage	Store Benzenesulfonic Acid, Ammonium Salt (1:1) in a cool, dry, well - ventilated area away from heat sources and flames. Keep it in a tightly - closed container to prevent moisture absorption. Avoid storing it near incompatible substances such as strong oxidizers or bases to prevent unwanted chemical reactions.
Shipping	Benzenesulfonic Acid, Ammonium Salt (1:1) is shipped in containers suitable for chemical transport. It's crucial to ensure proper packaging to prevent spills, following safety regulations for hazardous chemicals during transit.

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Benzenesulfonic Acid, Ammonium Salt (1:1)

General Information

Historical Development

The historical evolution of ammonium benzenesulfonic acid (Benzenesulfonic Acid, Ammonium Salt (1:1)) is considerable. In the past, chemical technology was not yet developed, and such compounds were little known. After the gradual development of science, Fang family made unremitting efforts to study. At first, only a little bit of its basic properties were known, and the preparation method was rather crude. As the years passed, scholars became more and more aware of the reaction mechanism and synthesis path. Experiments were improved and processes were optimized, so that the output of ammonium benzenesulfonic acid was gradually enriched and the quality was also improved. From the initial exploration of ignorance to the maturity of the process today, this compound has emerged in many fields. Its historical evolution is an important chapter in the long river of chemical development, witnessing the improvement of human cognition and control of the material world.

Product Overview

Ammonium benzenesulfonate is a combination of sulfonic acid compounds and ammonium salts. Its color is pure and pure, often crystalline, or white powder. This substance is easily soluble in water and has important uses in many chemical fields.
In the industrial field, ammonium benzenesulfonate can act as an excellent catalyst to help many organic synthesis reactions advance efficiently, like laying a smooth path for chemical reactions. In some specific textile printing and dyeing processes, it can play a unique role, or help the dye better adhere to the fabric, making the printing and dyeing effect more ideal.
Looking at its chemical properties, ammonium benzenesulfonate has certain acidic properties, but its acidity is slightly slower than that of strong acids. This property makes it an excellent choice in some reactions that require mild acidic environments. And the presence of ammonium ions also gives it different chemical activities and stability, playing an indispensable role in the stage of chemical synthesis.

Physical & Chemical Properties

Ammonium benzenesulfonate is a chemical substance. Its physical and chemical properties are particularly important. Looking at its properties, it is mostly white crystalline at room temperature and has a certain stability.
In terms of its solubility, it is soluble in water, which is useful in many chemical processes. Its melting point is also fixed, which is related to the transformation of its state.
In terms of chemical properties, ammonium benzenesulfonate has a certain reactivity. It can react chemically with other substances, such as meeting with bases, or having acid-base neutralization. In the field of organic synthesis, it is often used as an intermediate to assist in the preparation of various organic compounds. From this perspective, the physical and chemical properties of ammonium benzenesulfonate lay the foundation for its application in chemical industry and scientific research.

Technical Specifications & Labeling

"Ammonium benzenesulfonate"
Ammonium benzenesulfonate is also a chemical product. The standard of its manufacturing process is related to the accuracy of quality and purity, which is the most important thing.
To make this product, the choice of raw materials must be fine and pure. The ratio of benzenesulfonate and ammonium salt (1:1) must be accurate. If there is a difference in the millimeter, the quality is different.
Its manufacturing process, temperature and pressure control, can not be ignored. Only when the temperature is appropriate can the chemical reaction be promoted to be smooth; when the pressure is moderate, the state of matter is stable and complete.
The standard is established, and the discrimination is also important. Test its color, it should be clear and free of impurities; test its nature, the degree of acid and alkali is appropriate; analyze its quality, and the composition must comply with the (1:1) rule. In this way, only when you get good products can you apply them to all things in the chemical industry.

Preparation Method

"Method for Making Ammonium Benzenesulfonic Acid"
To make Benzenesulfonic Acid, Ammonium Salt (1:1), the raw materials and production process, reaction steps and catalytic mechanism are the key. First take benzene as the base material, and heat it with concentrated sulfuric acid to carry out a sulfonation reaction. Benzene and concentrated sulfuric acid at a suitable temperature, the hydrogen atom in benzene is replaced by a sulfonic acid group, and benzenesulfonic acid is produced. This step requires proper temperature control and does not cause side reactions to occur.
Then, ammonia gas is introduced into the benzenesulfonic acid solution. Ammonium benzenesulfonic acid can be obtained by neutralizing ammonia gas and benzenesulfonic acid in a ratio of 1:1. During the reaction, pay attention to the aeration
In this preparation method, the raw materials are usually easily available, but each step requires precise operation, temperature control and speed control to ensure the purity and yield of the product.

Chemical Reactions & Modifications

A chemist studied the chemical change of Benzenesulfonic Acid, Ammonium Salt (1:1). This salt responds to other things when it encounters them, and new substances often emerge. Its response, whether fast or slow, depends on the nature and environment of the thing.
To those who want to, some scholars use its encounter with alkali to see its rate of transformation, and the quality changes. The sulfonic acid group in this salt combines with the hydroxide in the alkali to form water and a new salt. This change also shows its chemical activity and is also a sign of its modification.
Try to treat it with heat to observe the change of its properties. When heated, the molecular bonding, the structure of the gradual change, and its properties are different from the beginning. Or melt or dissolve, or other reactions, are modified like.
The chemical reaction and modification of this salt can be the basis for industrial products and medical research and development. Scholars should study it in detail to explore its mysteries and seek its use in the world.

Synonyms & Product Names

The style of "Mengxi Brushwork" is mostly to explain things in plain and simple words. Today, as a researcher of chemical substances, according to its format, the same name and trade name paragraphs about "Benzenesulfonic Acid, Ammonium Salt (1:1) " are as follows:
"Benzenesulfonic Acid, Ammonium Salt (1:1) ". This chemical thing is inherently called in the academic world. Its synonyms are also different. Those who are called ammonium benzenesulfonic acid are named for their combination of ingredients, indicating that it is a salt of benzenesulfonic acid combined with ammonium root. As for the name of the product, it varies depending on the purpose of commercial use and market needs. In order to highlight its characteristics, or to facilitate the dissemination of memory, there are also different names on the market. However, their essence is the synthesis of this particular chemical. Although the names are different, they actually refer to the same substance. Those who study this chemistry should understand their similarities and differences, and do not mistake their cognition because of the name.

Safety & Operational Standards

About Benzenesulfonic Acid, Ammonium Salt (1:1) Product Safety and Operation Specifications
F Benzenesulfonic Acid, Ammonium Salt (1:1) are common products in the chemical industry. It is widely used in various industrial processes, but its nature is special, so the safety and operation specifications must not be ignored.
Safety matters, the first protection. This thing may be damaged to the skin, eyes, and breathing. Therefore, when handling, protective equipment must be worn, such as gloves, goggles, and gas shields. To protect the skin and eyes from harm, breathing is also safe.
Furthermore, there are rules for storage. It should be placed in a cool, dry and well-ventilated place, away from fire and heat sources. To prevent the temperature from being too high, causing its properties to mutate, and the risk of accidents. It must also be placed separately from oxidized substances and alkalis to avoid their interaction and cause harm.
When operating, follow the norms. Stirring and dumping, all need to be cautious. Do not let this thing splash out. If you accidentally touch it, rinse it with plenty of water urgently. If it enters your eyes, rinse it and seek medical attention as soon as possible. If you inhale it, leave the scene as soon as possible to a place where the air is fresh. If you feel unwell, you should also seek medical attention.
Disposal of waste is also in accordance with regulations. Do not dispose of it at will, and must be properly disposed of in accordance with relevant laws and regulations to avoid polluting the environment.
In short, the safety and operation specifications of Benzenesulfonic Acid, Ammonium Salt (1:1) are related to personal safety and the beauty of the environment. The operator must observe it carefully to ensure that everything goes smoothly and there is no harm.

Application Area

Ammonium benzenesulfonic acid (Benzenesulfonic Acid, Ammonium Salt (1:1)) has a wide range of application fields. In industry, it is often used as a dye aid. It can help the dye to color evenly, making the dye bright and lasting. In the ancient dye shop, if you get this thing, you must regard it as a treasure. Because it can make the fabric colorful and fresh for a long time, it is often used for dyeing fabrics favored by dignitaries. Furthermore, in the leather tanning industry, it is also indispensable. It can make leather soft and tough, not easy to break. In the past, leather craftsmen often used this product to improve the quality of leather. The leather goods made are durable and beautiful, and are very popular in the market.

Research & Development

I have been studying ammonium benzenesulfonate (1:1) for a long time. This substance is widely used in the field of chemical industry, either in printing and dyeing, or in pharmaceuticals. At first, I only knew its name, but its properties were not detailed. I dedicated myself to studying its physical and chemical properties. After various experiments, it was found that its properties are stable, and under specific conditions, the reaction is specific.
Then I thought about its application and expansion. Looking at the current industrial trend, many fields need high-efficiency agents, and this salt may be a good choice. So I sought to work with my colleagues in the field of research, hoping to introduce new ones. Although I have gained something today, the road ahead is still far away. We must be diligent and hope to gain greater benefits from research and development and promotion, so as to benefit the development of the industry and live up to the original intention of research.

Toxicity Research

The study of a certain day's chemistry concerns the people of the people. Today's study of Benzenesulfonic Acid, Ammonium Salt (1:1), the study of its toxicology is particularly important.
Examine this agent carefully, and under various states, the toxicity is different. In the state of liquid, it touches the skin, or it causes sensitivity and pain. If it enters the eyes, it will harm the light. If it enters through the mouth and nose, the viscera will also be tired by it. Its qi dissipates, and the smell also damages the official breath.
Ancient cloud: "Everything has its own nature. If it is used well, it will benefit, and if it is used indiscriminately, it will harm." Studying the toxicity of this thing aims to clarify its harm and avoid disaster. So that workers and users are aware of the risks, protection to be safe. With a fine study, to ensure that everyone's well-being between daily use, do not let poisons wreak havoc and damage people's physical and mental health.

Future Prospects

Benzenesulfonic Acid, Ammonium Salt (1:1) Although this object is not widely known today, I look at its characteristics, observe its nature, and know that it will have considerable development in the future. Its structure is unique, its performance is also unique, and it may open up new paths for various fields.
In today's world, science and technology are new, and the demand for chemical materials is becoming increasingly stringent. This object may rise in time and develop its talents in medicine and materials. Although there may be thorns in the road ahead, we will be able to uncover its potential by adhering to the heart of research and unremitting exploration.
We should study this object with lofty aspirations and fearless spirit. With time, Benzenesulfonic Acid, Ammonium Salt (1:1) will surely shine, open up a new realm for future generations, and achieve unfinished business. This is the vision of our generation of chemical researchers for the future.

Frequently Asked Questions

What are the main uses of ammonium benzenesulfonate (1:1)?

Borax (1:1) has a wide range of main uses. In the field of industry, it is often a flux for metallurgy. In the field of metallurgy and casting, in order to make the metal ore melt smoothly and separate impurities, borax can reduce the melting point of the ore, promote its reaction speed, and make the metal purified better. This is its metallurgical contribution.
In the glass industry, borax is also important. When glass is made, borax is added to improve the thermal expansion of the glass, increase its chemical stability and mechanical strength. In this way, the glass can withstand drastic changes in temperature and is not easy to break. It is suitable for a variety of appliances, such as laboratory glass instruments. It is both accurate and durable, and all rely on the power of borax.
It is also commonly used in the ceramic industry. In ceramic glazes, borax can reduce the melting point of the glaze, making the glaze smooth and even, and the color is gorgeous. When firing ceramics, borax helps the glaze to level to avoid flaws and make ceramic products better in appearance, both ornamental and practical.
Furthermore, in the chemical industry, borax is a raw material for many boron compounds. Boric acid and other substances derived from it are widely used in medicine, pesticides, preservatives, etc. In medicine, it can be disinfected and anticorrosive; in pesticides, it can prevent diseases and pests; in preservatives, it can be preserved for a long time.
In life, borax can also be traced. In the past, it was occasionally seen in food processing, but it is now strictly prohibited due to its toxicity. In the past, it was used to increase food toughness and preservative, but excessive intake of borax was harmful to the human body. Therefore, it is now mostly used for industrial purposes and is an important material for industrial development.

What are the physical properties of ammonium benzenesulfonate (1:1)?

Borax (1:1) is also a compound of boron. Its physical properties are quite unique, and it has many strange characteristics. Let me describe it for you.
First of all, its appearance, borax (1:1) is often colorless and translucent crystal shape, or white powder. Its crystal structure is regular and orderly, like a natural delicate utensil, shining in light, just like beautiful jade hidden in stone, faintly emitting a soft luster, which makes people happy to see.
Furthermore, in terms of its density, this substance has a moderate density and feels calm. If you take it by hand, you can feel that its weight is between light and heavy, not as erratic as catkins, nor as heavy as lead and iron, just right, as if it contains the way of neutralization between heaven and earth.
The solubility of borax (1:1) is also interesting. In hot water, it can dissolve faster, just like ice and snow meet the warm sun, quietly merging into the water, shadowless and invisible. However, in cold water, the dissolution speed is relatively slow, as if it is attached to the solid state, reluctant to dissipate easily. This characteristic is also similar to many things in the world. In good times, it will follow the trend, and in adversity, it will stick to it calmly.
Its melting point is also considerable. It requires a higher temperature to turn it from a solid state to a liquid state, just like after a lot of tempering, it can be transformed and sublimated. This tenacity is like a sage in the world, and it needs to be hardened in every way to achieve extraordinary results.
As for hardness, borax (1:1) is relatively brittle and hard in texture. Although it has hardness, it is not resistant to strong attacks. If there is a slight external force, it will be easily broken. This is just like some seemingly strong things in the world, but they are actually inherently fragile and vulnerable. It also warns us not only to look at their surface strength, but to understand their inner nature.
The physical properties of borax (1:1), whether manifested in the beauty of appearance or hidden in the characteristics, all contain the wonders of nature, just like a wordless book, waiting for the world to study and understand.

What are the precautions when storing ammonium benzenesulfonate (1:1)?

When hiding borax (1:1), pay attention to many things. This is the essence of physical properties and use, and must not be ignored.
Borax (1:1) is delicate in nature and afraid of moisture. Therefore, the place where it is hidden must be dry and ventilated, avoid the shade, and never let it be near water. If it is invaded by water vapor, it will be easy to melt and perishable, and lose its original use. And borax should be mixed with other things with caution. It must not be placed in one place with acids, strong oxidizing agents, etc., to prevent its combination from changing and causing its quality to deteriorate and become unusable.
Furthermore, borax is toxic. Although it has its uses in industry, medicine, etc., when it is hidden, it must be placed in a childish and untouchable place to prevent it from ingesting and causing harm. For medicinal users, it is even more necessary to follow the rules of medical practice, strict storage laws, and abide by its system to ensure its effectiveness and prevent its harm.
The utensils of borax (1:1) are also exquisite. It is appropriate to use glassware and ceramics, because their properties are stable and do not violate borax. If you use metal utensils, you may respond to electrification and damage the quality of borax.
The temperature of borax (1:1) needs to be carefully checked. If it is too high, it will easily cause it to decompose, and if it is too low, it will cause its shape to change, which will affect its use. Therefore, it is appropriate to store it at room temperature, roughly 15 degrees Celsius to 25 degrees Celsius. In this way, the properties of all borax (1:1) can be obtained when it is used, and it will not lose its good material due to the error of Tibetan law.

What is the production method of ammonium benzenesulfonate (1:1)?

The production method of alum stone and gypsum (1:1) requires multiple exquisite processes.
First take pure alum stone, choose the pure color and quality, and calcine it in a special crucible under moderate heat. This heat control is extremely critical. If it is too strong, the properties of alum stone will be damaged, and if it is too slow, it will be difficult to achieve the desired state. Looking at its color change, when the alum stone gradually turns reddish and has a crispy texture, stop and cool.
Then take the gypsum, and choose the high quality one, finely grind it into powder, and sieve it with a fine screen to make the powder even and delicate. Place the calcined ettringite and ground gypsum powder in a clean and dry large container in a precise 1:1 ratio.
Then stir gently and evenly with a special wooden shovel. Be sure to mix the two thoroughly without any bias. When stirring, pay attention to the strength and speed. If it is too strong or too fast, it will cause the ingredients to separate. If it is too light or too slow, it will not mix evenly.
After mixing, move the mixture to an airtight container and let it stand in a cool and dry place for a while to further integrate and stabilize the internal components.
After this series of rigorous processes, the products of altzite and gypsum (1:1) can be obtained, and their texture and properties are all in an excellent state. They are suitable for many uses, such as medicine or fortifications, and can play their unique role.

Ammonium benzenesulfonate (1:1) has any impact on the environment

Alumite, the stone has alum nature. Alumite (1:1) has a great impact on the environment.
Alumite, in the mountains and rivers, is often born in mineral veins. Its nature is lively, it dissolves in contact with water, and flows between water and soil. If the water and soil contain too much alum, it is difficult for plants to grow. Looking at all plants, their roots absorb nutrients from water and soil. If alumite is mixed in it, it will disturb its physiological order. In the light case, the leaves turn yellow and their vitality is gradually weakened; in the heavy case, the roots rot and the plants wither and die.
In the flow of water, the solution of alumite can turn the water into acid. Water is the source of all things. Fish and aquatic organisms depend on water to live. The water quality becomes acidic, which is very unfavorable to the environment in which they live. The gill leaves of fish are easily eroded when exposed to acidic water, resulting in poor breathing and even death.
As for the habitat, if you use water containing alum, there are also hidden worries. Drinking it may hurt the stomach; it is used for bathing, or it may damage the skin. And alum is in the air. If it encounters special conditions, it can cause odor in the air, affect people's breathing, and make people uncomfortable.
Furthermore, when alum is mined, the earth is broken and the rocks are broken, the appearance of the mountains and forests changes, and the soil and water are easily lost. If not treated well, the mountains and rivers will be barren and disasters will occur easily. It is the aluminium stone (1:1) that has an impact on the environment, from soil, water, organisms, human settlements to ecological changes, and cannot be ignored.