4-Chlorobenzenesulfonic Acid Potassium Salt

Lingxian Chemical

Specifications

HS Code	112892
Chemical Formula	C6H4ClKO3S
Molecular Weight	228.71
Appearance	white to off - white powder
Solubility In Water	soluble
Odor	odorless
Melting Point	decomposes
Ph Aqueous Solution	alkaline
Stability	stable under normal conditions
Hazard Class	corrosive

Packing & Storage

Packing	250g 4 - Chlorobenzenesulfonic Acid Potassium Salt in a sealed, chemical - resistant bag.
Storage	Store 4 - Chlorobenzenesulfonic Acid Potassium Salt in a cool, dry place away from heat sources and ignition sources. Keep it in a tightly sealed container to prevent moisture absorption and contamination. Avoid storing it near incompatible substances such as strong oxidizing agents or acids. This proper storage helps maintain its stability and integrity over time.
Shipping	Ship 4 - Chlorobenzenesulfonic Acid Potassium Salt in well - sealed, corrosion - resistant containers. Label it as a chemical cargo. Transport with proper handling to avoid spills, following all relevant safety and regulatory requirements during shipping.

Free Quote

For samples, pricing, or more information, please call us at +8615651039172 or mail to info@bouling-chem.com.

We will respond to you as soon as possible.

Tel: +8615651039172

Email: info@bouling-chem.com

4-Chlorobenzenesulfonic Acid Potassium Salt

General Information

Historical Development

The history of 4-chlorobenzenesulfonate potassium salt
The ancient chemistry has not yet developed, and the study of substances is still unknown. And the progress of science, researchers began to glimpse the mystery of chemical industry. When 4-chlorobenzenesulfonate potassium salt first appeared, its properties were not known to everyone.
At that time, researchers with perseverance, poor sense. After years of study, its structure and characteristics were known. In the field of industry, it was only a small trial at the beginning, and it was used very little.
After the years passed, researchers made great progress, optimized the production method, and improved the purity. It has gradually developed its effectiveness in printing and dyeing, medicine and other industries, and is valued by the industrial world. The process of 4-chlorobenzenesulfonic acid potassium salt, from little known to indispensable, is one of the signs of chemical evolution, and it has also been explored by researchers, which has promoted it to shine in time and become an important industrial material.

Product Overview

4-Chlorobenzenesulfonic acid potassium salt is an important substance in chemical research. Its color is pure and uniform, in the state of powder, and slightly shiny under light. The properties of this substance are stable, and when it encounters strong acids and alkalis, it also changes chemically.
In the chemical industry, it has a wide range of uses. It can be used as a raw material for organic synthesis and assists in the preparation of many complex compounds. In the dye industry, it is a key auxiliary for enhancing color and fixing color, which can make the color bright and lasting.
After repeated experiments and investigations, its reaction conditions are severe, and the temperature and pH are slightly deviated, which affects the quality and quantity of the product. However, if it is precisely controlled, it will be able to produce high-quality products and make outstanding contributions to industrial production.

Physical & Chemical Properties

4-Potassium chlorobenzenesulfonate, this substance also has unique physicochemical properties. Its color is white and pure, if crystalline, it is easily soluble in water, and the solution is ionic. Looking at its chemical structure, the potassium chlorosulfonate groups on the benzene ring are arranged in an orderly manner to form a stable structure. When heated, it reaches a specific temperature, or it decomposes to produce new substances. Regarding its physics, the melting point is fixed, which is made by intermolecular forces. In the field of organic synthesis, it is a key raw material. Due to the activity of potassium sulfonate groups, it can participate in various reactions, such as nucleophilic substitution, combining with other substances to form new compounds. Its physicochemical quality determines its wide range of uses, and it is important in the chemical and pharmaceutical industries.

Technical Specifications & Labeling

4-Chlorobenzenesulfonate potassium salt, its technical specifications and identification (product parameters) are the key. The technical specifications of this compound need to be clearly identified in its purity geometry and the geometry of impurities, which is related to the quality. In its identification, the product parameters should be clearly presented, such as molecular weight and molecular formula, when accurate.
To make this product, strict procedures must be followed. The selection of raw materials must be high, the reaction conditions must also be accurately controlled, and the properties of temperature and pressure must not be ignored. After the reaction is completed, it should be finely purified to remove impurities and improve its purity.
On the label, in addition to the molecular formula and molecular weight, the physical and chemical properties should also be detailed, such as properties, melting point, boiling point, etc. In this way, users can be aware of its characteristics, use it correctly, and ensure its quality and safety.

Preparation Method

To prepare 4 - Chlorobenzenesulfonic Acid Potassium Salt, the method is as follows:
In terms of raw materials, take chlorobenzene, concentrated sulfuric acid and potassium hydroxide as the main materials. Chlorobenzene is the starting material, concentrated sulfuric acid is used for sulfonation, and potassium hydroxide is used for potassium salt.
In the production process, chlorobenzene is co-heated with concentrated sulfuric acid to carry out a sulfonation reaction. This step requires appropriate temperature control to make chlorobenzene sulfonate 4-chlorobenzenesulfonic acid. Then, 4-chlorobenzenesulfonic acid is neutralized with potassium hydroxide. After this reaction step, 4-Chlorobenzenesulfonic Acid Potassium Salt can be obtained.
In order to make the reaction good, a suitable catalytic mechanism should be set up. If an appropriate catalyst is selected, the sulfonation reaction can be accelerated and the It is also crucial to control the temperature and duration of the reaction to ensure the purity and yield of the product.

Chemical Reactions & Modifications

There is now a chemical substance, named 4 - Chlorobenzenesulfonic Acid Potassium Salt. In the field of chemistry, its reaction and modification are studied by us.
Looking at its reaction, it can combine with various substances, follow the laws of chemistry, and generate new quality. The way of its modification is to adjust the temperature, or change the pressure, or add other agents to change its properties.
If the temperature rises, its speed should be changed, the molecular dynamic drama, the transfer of energy should be changed, so it should be faster. The change of pressure also has its effect, which is dense and divided, and it should be changed if it is increased and touched.
When adding agents, there are those who urge them to reduce their obstacles and promote their speed; there are also those who slow down, increase their obstacles and reduce their rate.
We study the reaction and modification of this 4-Chlorobenzenesulfonic Acid Potassium Salt in detail, hoping to obtain a deep solution, so as to use it in practice, promote chemical progress, and benefit the world.

Synonyms & Product Names

4-Chlorobenzenesulfonate potassium salt, this substance is very important in the field of chemical industry. There are many aliases, or potassium p-chlorobenzenesulfonate, and it is also called 4-chlorobenzenesulfonate, potassium salt. Looking at its name, "potassium p-chlorobenzenesulfonate" is named according to its chemical structure, with the arrangement of epichlorine atoms in the benzene ring, and combined with sulfonic acid groups and potassium ions.
As for the trade name, it also has a unique title in the industry. Chemical companies, in order to recognize the characteristics of their products, or give trade names such as "potassium chlorosulfonate" to show the excellent quality and distinguish them from other products. This is because chemical products circulate in the market, with different names, which can be identified and applied to meet the needs of different fields, so that various industries can accurately select suitable products.

Safety & Operational Standards

4 - Potassium chlorobenzenesulfonate safety and operating specifications
4 - Potassium chlorobenzenesulfonate, this material is related to safety and operation, and there are regulations, which need to be detailed.
#1. Storage requirements
It should be placed in a cool, dry and well-ventilated place. Keep away from fire and heat sources to prevent accidents. Do not mix with oxidants, alkalis, etc. Due to different chemical properties, mixed storage is prone to reactions and cause danger. The storage place should be equipped with suitable materials to contain leaks to deal with in case of a situation.
#2. Rules of operation
When operating, be sure to strengthen ventilation. Operators must undergo special training and strictly abide by the operating procedures. It is recommended that operators wear self-priming filter dust masks, chemical safety glasses, anti-poison infiltration work clothes, and rubber gloves, all of which are to protect their own safety. Avoid generating dust and prevent dust from being released into the air of the workshop. When handling, it should be lightly loaded and unloaded to prevent damage to packaging and containers.
#3. Emergency response
In case of accidental leakage, isolate the leakage contaminated area and restrict access. Emergency personnel wear dust masks (full masks) and gas suits. Do not let leaks come into contact with organic matter, reducing agents, and flammable substances. In the event of a small leakage, collect it in a dry, clean, covered container with a clean shovel. A large number of leaks are covered with plastic sheets and canvas to reduce flying, and then collected for recycling or transported to a waste treatment site for disposal.
If it comes into contact with the skin, remove the contaminated clothing and rinse with a large amount of flowing water. If it enters the eyes, lift the eyelids, rinse with flowing water or normal saline and seek medical attention. If inhaled, quickly leave the scene to a fresh place of air to keep the respiratory tract unobstructed. If breathing difficulties, give oxygen. If breathing stops, immediately perform artificial respiration and seek medical attention.
In the way of chemical research, strictly abide by safety and operating standards, which is the foundation of protecting oneself and the environment, and must not be slack.

Application Area

4-Potassium chlorobenzenesulfonate is widely used in various chemical fields. In the printing and dyeing industry, it can be used as an auxiliary agent to help dye even dyeing, so that the color is uniform and firm, and the color of the fabric is brighter and longer lasting. In the pharmacy, it is a key intermediate. After chemical transformation, it can make a variety of special drugs and cure various diseases. In the leather industry, it can be used for tanning to make leather flexible and durable, and improve the quality of leather. With its unique chemistry, this salt plays an important role in various fields of industry. It is an indispensable material for many production processes. It is an important corner in the chemical industry and promotes the continuous progress and development of related industries.

Research & Development

Since modern times, the technology of chemistry has advanced day by day, and various compounds have appeared in the world. Today there is 4 - Chlorobenzenesulfonic Acid Potassium Salt, and I have dedicated myself to studying it.
At the beginning, explore its physical properties, observe its color state, observe its solubility, and know its properties in different media. Also study its chemical properties, test its response to various things, measure the temperature and speed of the reaction, and the quality of the product.
Study its preparation method, improve the old technique, and seek high-efficiency and pure products. After repeated testing, we can get the path of optimization, the yield is increasing, and the quality is better.
Thinking about its use is promising in the fields of industry, agriculture and medicine. In industry, it may be used as a catalyst, in agriculture, or in the research of fertilizers, in medicine, or in the preparation of drugs.
I will continue to study, hoping that this product can be widely used in the world, promoting the prosperity of all industries, and benefiting people's livelihood, so as to achieve a new environment for chemical research and application.

Toxicity Research

Fu 4 - Chlorobenzenesulfonic Acid Potassium Salt, a product of chemistry. If you want to know more about its toxicity, you should study it with scientific methods.
First observe its physical properties to understand its state in different environments. Second test its response to other things, explore its reaction, or what kind of new substances are produced, and whether there are toxic substances.
Also observe the changes in its entry into the living body, what effect it has on cells and tissues, and observe the differences in physiological functions. If you conduct experiments on animals, observe the changes in their behavior, growth, and reproduction to show the depth of toxicity.
The study of toxicity is related to the safety of living beings, and it is also an important task for chemical researchers. We must study the toxicity of this product in a rigorous manner and with scientific methods to ensure the harmony of all things in the world.

Future Prospects

4-Potassium chlorobenzenesulfonate, this is a chemical thing. As a chemical researcher, my generation looks forward to its future and has a lot of potential. In the field of chemical industry, it can be used as a raw material for new materials. With the advance of science and technology, through fine methods, it can make materials with outstanding performance, which can be used in electronics, medicine and other industries. In the road of medicine, it may be able to use its characteristics to develop new agents to add strength to the treatment of diseases and diseases. In the world of electronics, it may become a key component to promote the delicate and efficient electronic devices. Although there may be thorns in the road ahead, the courage of scientific research will surely drive my generation to break through difficulties and move forward. I hope this chemical thing will shine in the future, benefit all people, and contribute to the progress of the world.

Frequently Asked Questions

What are the main uses of potassium 4-chlorobenzenesulfonate?

4-Bromic acid is a chemical product, and it is useful in many fields.
First, in the field of analysis, 4-bromic acid is often used for oxidation. Because of its oxidizing properties, it can be filled with a solution in the titration of oxidizing agents, so as to determine the content of many original substances. For example, if the content of (ⅱ) seeds is determined, 4-bromic acid can be oxidized by (ⅱ). By the method of titration, the content of 4-bromic acid can be accurately calculated according to the amount of 4-bromic acid consumed. This titration method is easy to operate, and the fruit essence is low. It is widely used in metallurgy, chemical analysis, etc.
Second, in the field of synthesis, 4-bromic acid also plays an important role. It can be used for the bromination reaction of alkenyl compounds. For example, some alkenyl compounds, 4-bromic acid, and acid solutions together, can cause the addition of alkenyl to bromide and generate brominated phases. This brominated compound is important in the synthesis, and can be used in the synthesis of refined products such as polymers, fragrances, and fragrances in one step.
Furthermore, 4-bromic acid is also useful in disinfecting bacteria. Due to its oxidizing properties, it can destroy the biological macromolecules of microorganisms, thus achieving the effect of disinfecting bacteria. In some specific environmental disinfection scenarios, such as equipment disinfection, some special environmental disinfection, etc., the disinfection solution of 4-bromic acid can be reasonably used to ensure the safety of environmental hygiene.
Therefore, 4-bromic acid plays an important role in the analysis, synthesis and disinfection of bacteria due to its own characteristics, providing assistance for the development of various fields.

What are the physical and chemical properties of potassium 4-chlorobenzenesulfonate?

4-Aminopyridinium is a compound with unique properties. Its physicochemical properties are multi-faceted.
In terms of solubility, it often has the best solubility in soluble substances, such as water and alcohol. Because of the high solubility of the amino pyridinium, it can form soluble molecules or other molecules to increase the solubility.
In terms of acid properties, 4-aminopyridinium has a certain property due to the nitrogen atom of the pyridinium, and the amino group can also react to the acid, so its acidic properties are very special. Under suitable conditions, it can be used as a weak acid to neutralize and react, generating a phase.
And characterization, 4-aminopyridinium has a certain degree of characterization in the general environment. However, in case of oxidation or high-end components, it may cause biochemical reactions, causing them to change. The aromatic properties of pyridinium provide a certain degree of stability, but the activity of amino groups may also lead to partial reactions, affecting them.
In addition, the melting of 4-aminopyridinium is also affected by the action of its molecules. Molecular factors such as molecular weight and molecular action jointly determine the level of its melting. Generally, the greater the molecular weight of the phase and the higher the molecular force, the higher the melting. Therefore, the rationalization of 4-aminopyridinium is determined by its molecule, and it shows differences in different parts, which plays an important role in the diversity and phase domains.

What are the precautions for the production of 4-chlorobenzenesulfonate potassium?

In the process of oxidation, the general things need to be paid attention to. The first raw material, the liquid in the raw water must be mixed, and the mixture must be mixed. If there is too much water, the amount of the finished product can be enough, or it contains too much harmful, which affects the use of the product. The liquid is also carefully selected, and its degree and degree of resistance are both effective.
In terms of the degree of resistance, it is appropriate to control the degree of resistance. Low degree of resistance, slow reaction rate, long-term consumption and low efficiency; high degree of resistance, the reaction should be controlled, or the side reaction should be generated, so that the quality of the product is reduced. Generally speaking, often to the degree of increase, it needs to be based on the precision of the workmanship. Mixing should not be ignored. Adequate mixing can make the reaction homogeneous and promote the reaction to be fully carried out. If the mixing is uneven, the degree of local inversion is low, and the amount of product is also affected.
The generation of sedimentation is low, and the solid-liquid separation is not allowed. Commonly used methods such as high temperature or heart are used to ensure the effective separation of the liquid. If the separation is not at the bottom, the liquid will remain in the solid, which will affect the degree of oxidation. Washing and sedimentation is also important. Washing with water for many times to remove the adsorption on the surface, and the amount of washing liquid used for the second time is appropriate. If there is less, it will increase the cost and may cause damage to the product.
It is also necessary to be careful when it is dry. The degree of dryness, the combination of high temperature, high temperature, oxidation or decomposition; if it is short or short, the performance of the product with low water content will be affected. The dry environment is also good, preventing secondary pollution.
The whole production process, the quantity control and wear start. Determine the quality, analyze the size of the product, particle size and other indicators, if there is a deviation, and the finishing process is good, in order to ensure that the quantity of the oxidized product is fixed, in line with the requirements of the phase.

What is the market price trend of potassium 4-chlorobenzenesulfonate?

Since modern times, the market has changed rapidly, and everyone has paid close attention to the trend of prices. In the 4-hydroxyproline zinc industry, the trend of its market price has also been noticed by merchants.
Watching the market situation, in the past, the supply and demand of 4-hydroxyproline zinc changed from time to time. At first, because of its increasing effectiveness in the fields of medicine and health care, those who sought it became more and more, but those who produced it did not increase sharply, so the price rose. At that time, merchants saw its benefits, and it took effect, and they competed to join the industry. Soon, the production capacity gradually increased, and the supply in the market exceeded the demand, and the price gradually declined.
However, business is impermanent, and its price is not blindly declining. Due to the production of raw materials, the price of raw materials may change from time to time, or the regulations of government orders, resulting in a sudden increase in the price of raw materials. If raw materials are expensive, the cost of making 4-hydroxyproline zinc will increase. In order to protect their profits, merchants will raise their prices, and the price of 4-hydroxyproline zinc in the city will rise again.
And the progress of Fu Technology is also related to its price. If the new technology is developed, it can reduce its manufacturing cost or increase its efficacy and quality, and it will be more competitive in the market. The price of those produced by the old method may fall under pressure; those made by the new technique may have a high price at the beginning or due to novelty. After it is widely spread, the price may be stabilized due to the increase in quantity.
In addition, changes in world conditions are also the main reason. If an epidemic breaks out, the demand for medical care increases greatly. If 4-hydroxyproline zinc is involved in anti-epidemic or health care, the price will rise sharply. When the epidemic is leveled, it needs to be reduced, and the price will also fall.
In summary, the market price trend of 4-hydroxyproline zinc is intertwined by factors such as supply and demand, raw materials, technology, and world conditions. If you want to understand the trend of its price, you must look at all the ends and study it carefully, so as to obtain its general strategy in response to changes in the business market.

What are the storage conditions for potassium 4-chlorobenzenesulfonate?

The storage conditions of 4-hydroxypyridinium salts are crucial for their quality and stability. They should be stored in a cool, dry and well-ventilated place.
A cool environment can reduce the risk of decomposition or deterioration due to excessive temperature. High temperature often promotes chemical reactions, which change the structure of the compound and damage its performance. 4-hydroxypyridinium salts at high temperatures may cause reactions such as intramolecular rearrangement and chemical bond breaking, resulting in reduced purity and changed activity. Therefore, it should be stored in a lower temperature, generally 5 ° C - 25 ° C, to ensure its chemical stability.
Drying conditions are also indispensable. 4-Hydroxypyridinium salt has certain hygroscopicity. If the ambient humidity is high, it may absorb moisture and deliquescence. Deliquescence not only causes changes in its physical form, such as agglomeration, dissolution, but also triggers chemical reactions such as hydrolysis. Water molecules intervene, or react with hydroxyl groups on the pyridinium ring, affecting its structure and function. Therefore, it needs to be placed in a sealed container or a desiccant is added at the storage place to maintain dryness, and the relative humidity should be controlled at 40% - 60%.
Good ventilation can remove volatiles and harmful gases accumulated in the storage environment. 4-Hydroxypyridinium salt, although not a strong volatile substance, may have a small amount of volatilization. If the ventilation is not good, volatile substances accumulate, or increase the risk of explosion and poisoning, and affect the purity of the compound. A well-ventilated space can disperse the volatile substances in time to ensure the safety of the storage environment.
In addition, 4-hydroxypyridinium salts should be stored separately from oxidizing agents, acids, bases, etc. Because of their specific chemical activity, contact with these substances or severe chemical reactions can cause serious consequences such as fire and explosion. When storing, it is necessary to affix a label, and note the name, specification, storage date and other information in detail for management and traceability. After taking it, it should be sealed as soon as possible to prevent it from being affected by the environment. In this way, according to the above storage conditions, 4-hydroxypyridinium salts can be guaranteed to maintain good quality and performance for a certain period of time.