Products

Home Products 4-Phenolsulphonic Acid Sodium Salt

Sulfonic Acid Series Sulfamic Acid Series Guanidine Series

Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

4-Phenolsulphonic Acid Sodium Salt

Specifications

HS Code	636283
Chemical Formula	C6H4NaO4S
Molar Mass	208.15 g/mol
Appearance	White to yellowish powder
Solubility In Water	Soluble
Ph Of Aqueous Solution	Alkaline
Melting Point	Decomposes
Odor	Odorless
Density	N/A (powder)
Stability	Stable under normal conditions
Hazard Class	Irritant

As an accredited 4-Phenolsulphonic Acid Sodium Salt factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	25 - kg bags of 4 - Phenolsulphonic Acid Sodium Salt, well - sealed for protection.
Storage	4 - Phenolsulphonic acid sodium salt should be stored in a cool, dry place, away from direct sunlight and heat sources. Keep it in a well - sealed container to prevent moisture absorption and contact with air, which could lead to degradation. Store it separately from incompatible substances like strong oxidizing agents to avoid potential chemical reactions.
Shipping	4 - Phenolsulphonic Acid Sodium Salt is shipped in tightly - sealed, corrosion - resistant containers, compliant with chemical transport regulations. Packaging ensures protection from moisture and external contaminants during transit.

Free Quote

Competitive 4-Phenolsulphonic Acid Sodium Salt prices that fit your budget—flexible terms and customized quotes for every order.

For samples, pricing, or more information, please call us at +8618136850665 or mail to sales7@alchemist-chem.com.

We will respond to you as soon as possible.

Tel: +8618136850665

Email: sales7@alchemist-chem.com

General Information

Historical Development

The sodium salt of 4-phenol sulfonic acid, which exists in the world, and its source is also from. At the beginning, the research of chemistry was not as sophisticated as it is today, but the heart of seeking knowledge drove the sages to explore the physical properties.
In the past, chemists devoted themselves to research with perseverance. Or in the war room, place various utensils, adjust various liquids, and after countless trials, the characteristics of the sodium salt of 4-phenol sulfonic acid were gradually realized. The method of preparation has also evolved over generations. At the beginning, the method of preparation was simple, and the amount obtained was thin and the quality was not pure.
Over the years, the sages have become more and more clear in the principles of chemistry, and the method of preparation has become more and more exquisite. The choice of raw materials and the control of steps have all been improved. Therefore, the sodium salt of 4-phenol sulfonic acid has gradually increased in output and better quality. It is widely used in chemical, pharmaceutical and other fields, contributing to the development of the world. This is also the outline of its historical development.

Product Overview

4-Phenol sulfonic acid is a chemical compound of interest in the study. Its appearance may be solid, and its color often depends on its temperature and temperature. This compound has specific chemical properties, can be dissolved to a certain extent in water, and can be used for multiple reactions.
Its use in the chemical industry is not limited, or it can be used in some synthetic processes. It plays an important role in the process. Through specific chemical reactions, it can be obtained by a series of steps from the raw materials of the phase. In research, it is necessary to control the quality of its components, such as the degree of reaction, the proportion of reaction materials, etc., to ensure the quality of the product, so that it can be better used in various industrial and scientific research scenarios.

Physical & Chemical Properties

The sodium salt of 4-phenol sulfonic acid, which has unique physical properties. Its color is white or nearly colorless, and it is like a crystalline powder, often existing in a solid state. Its taste is not very different. Melted in water, soluble in water, it can develop the appearance of ionization, and it is in the state of ions.
Looking at its chemical properties, it has the properties of acid roots, can neutralize with alkali, and generate salt and water. In case of active metals, it also reacts, generating hydrogen gas to form new salts. And the existence of phenol groups in its structure makes it have some characteristics of phenols. In case of specific reagents, it can change color.
Its physical properties, with a certain melting point, when heated to its melting point, it will melt into a liquid state. The density is also fixed, and at room temperature, it has a relative specific gravity. The physical and chemical properties of this compound are the basis for use in chemical, pharmaceutical and other fields, and can assist researchers in formulating its application methods and developing its effectiveness for various things.

Technical Specifications & Labeling

4 - Phenol sulfonic acid is an important material for chemical research. Its technical quality is high (commodity quality). The color of this product is correct, and the color of this product is high. The particle size is uniform, small and whole. The content needs to be high in order to fit the well-made system.
The method of its quality, in order to improve the quality of the device, to improve its reverse image, according to the quality of the product, the deviation is small. The boiling of the product also has the quality of the product, and it cannot be exceeded. This 4 - Phenol sulfonic acid is born according to the quality of the product, and the quality of the product is correct, and it can be used in the field of chemical research.

Preparation Method

The method of making 4-Phenolsulphonic Acid Sodium Salt is related to the raw materials and production process, reaction steps and catalytic mechanism. The raw materials need to be prepared with phenols, sulfuric acid, caustic soda, etc. First, the phenols and sulfuric acid are co-placed in the kettle, the temperature is controlled, and the phenolic sulfuric acid is formed. In this step, you need to pay attention to the temperature, and do not let it suddenly change and cause chaos.
When the phenolic sulfuric acid is obtained, it is neutralized with caustic soda to form a 4-Phenolsulphonic Acid Sodium Salt solution. At the time of neutralization, measure the pH in detail to achieve moderation. After that, the solution is evaporated and concentrated, crystallized and precipitated, and then centrifuged and dried
Its catalytic mechanism, sulfuric acid is used as a catalyst in the sulfonation of phenols to promote the rapid reaction. And in each step, the environment must be strictly controlled, such as temperature, pressure, response time, etc., to ensure quality and yield. In this way, the production method follows scientific rules and is a good product.

Chemical Reactions & Modifications

To taste the wonders of chemical industry, it is related to the change of substances, and the main purpose is reaction and modification. In the field of chemical industry, the reaction and performance of 4-sodium phenol sulfonate are the key.
The reaction of 4-sodium phenol sulfonate may combine with other substances or be triggered by conditions. Its properties are easy to respond to alkali metal salts, such as interchange with sodium salts, because of the activity of sulfonic acid groups. And in case of changes in temperature, pressure and catalyst, the reaction is also different, either fast or slow, and the products are different.
As for modification, chemical means can be used to add groups to the benzene ring to change its solubility and stability. If a lipophilic group is added, its solubility in the organic phase can be increased; adding a stable group can strengthen its chemical stability. In this way, sodium 4-phenol sulfonate is more widely used in various fields, either for medicine or for work, all rely on the beauty of this reaction and modification to suit the needs.

Synonyms & Product Names

4-Phenol sulfonic acid, this substance is also known as phenol sulfonic acid. Its name is the same, and it has been used in ancient times. Phenol sulfonic acid, is a chemical product commonly used in engineering. The name of 4-phenol sulfonic acid, directly describes its manufacture, and is based on the science.
And the name of phenol sulfonic acid, is popular, and many people call it this. Both refer to the same thing. In general chemical engineering, this product is often used as an important raw material or medium. 4-phenol sulfonic acid, or phenol sulfonic acid, both refer to this specific chemical product, and its properties and uses are not changed by the name. The world uses it according to its needs, not limited to its name.

Safety & Operational Standards

4-Phenol sulfonic acid is a chemical substance. Its safe operation is essential.
If this substance is not used on the skin, it should be washed with plenty of water as soon as possible. If it is not used properly, it should be washed as soon as possible. If it is not carefully entered into the eyes, it should be washed with plenty of water immediately, and it should not be rubbed into the eyes, that is, it should be treated. If you eat it, do not urge vomiting, and use plenty of water immediately.
During operation, it is necessary to pass it well to avoid the accumulation of its contents. Operators should wear appropriate protective equipment, such as anti-contact gloves, eyes, etc., to prevent damage. Use the equipment, and wash it properly to ensure safety.
The storage area should be placed in a dry, dry and well-connected place, and the source of fire and gas should be stored separately. Oxidation, acid and other substances should also be stored separately, and must not be mixed to prevent the destruction of life-threatening materials.
When moving the container, do not drop or fall, so as not to break the container and cause the leakage of the material. If there is an unfortunate leakage accident, immediately isolate the container and evacuate the crowd. A small amount of leakage can be collected in the container or dry container; if a large amount of leakage is caused, the embankment or dig a pit for containment, and the appropriate material is adsorbed or absorbed for proper treatment.
Therefore, for 4-phenol sulfonic acid, only by following the safe operation standard can we effectively avoid accidents and ensure human safety and environmental safety.

Application Area

4-Phenol sulfonic acid can be used for this purpose. In the field of production, it can be used as a raw material for some products to help treat diseases. In terms of work, it is also very useful. For example, in printing and dyeing, it can be used to make the dye better adhere to the material and make the color more firm. In addition, in some chemical synthesis processes, it can be used as a medium, a multi-chemical reaction, to promote the formation of the desired compound. And because of its specific chemical properties, in some catalytic reactions, it can be used to accelerate the reaction rate and improve the production efficiency. Therefore, it is indispensable in many fields.

Research & Development

4 - Sodium salt of phenol sulfonic acid, which has attracted much attention in our research and development process. It has unique properties and has potential uses in many fields. We have carefully observed its physicochemical properties and explored its reaction mechanism. After repeated experiments, we have studied its synthesis method, striving to optimize the process and improve the yield. In terms of application, explore its possibility in industrial production, pharmaceutical research and development and other fields.
Looking at its research status, although there have been some achievements, there are still many unsolved problems. We need to further explore its potential and expand the scope of application. After unremitting research, it is expected to achieve new breakthroughs, promote this product from research to wider application, and contribute to the development of related industries, achieving the transformation from basic research to practical application, and shining brightly in future development.

Toxicity Research

The toxicity of 4 - Phenolsulphonic Acid Sodium Salt is investigated. This substance is common in various chemical applications, but its toxicity cannot be ignored.
Initial observation of its properties, in vitro experiments, cells exposed to this substance, morphology and metabolism have aberrations, which shows that it disturbs cell physiology. After animal testing, when given an appropriate amount of this agent, the function of the organs of the tested animals is abnormal, such as liver and kidney metabolic disorders, characterized by differences in biochemical indicators.
Furthermore, consider the impact of this substance in the environment. If it flows into water bodies, soil, or causes ecological imbalance, the community structure of aquatic organisms and soil microorganisms may be damaged.
In summary, 4 - Phenolsulphonic Acid Sodium Salt is significantly toxic. During production and application, caution should be taken to prevent it from causing serious harm to life and the environment. Proper measures should be taken to reduce its harm and ensure the safety of nature and the world.

Future Prospects

Guanfu 4 - Phenolsulphonic Acid Sodium Salt is gradually emerging in today's chemical research. Although we have explored it now, it is only shallow, but our generation has a lot to look forward to seeing its future development with the heart of research.
Today this substance has its unique properties, or it can be used in various fields of chemical industry. Although it is not widely used at present, it is like the beginning of a spark, and with time, it will become a prairie prairie.
Those of us who study should study its essence and explore its potential with diligence. In the future, we may use its characteristics to create a new chapter in chemical industry and expand the scope for various applications. So that this material can be helpful to the prosperity of industry and the interests of people's livelihood, which is also the extension of our generation to the future.

Where to Buy 4-Phenolsulphonic Acid Sodium Salt in China?

As a trusted 4-Phenolsulphonic Acid Sodium Salt manufacturer, we deliver: Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements. Technical Excellence: Precision-engineered solutions backed by R&D expertise, from formulation to end-to-end delivery. Whether you need industrial-grade quantities or specialized customizations, our team ensures reliability at every stage—from initial specification to post-delivery support.

Frequently Asked Questions

As a leading 4-Phenolsulphonic Acid Sodium Salt 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 main uses of 4-phenol sulfonate sodium salt?

4-Boron-indole-3-acetate cobalt oxime is a unique chemical that has important uses in many fields.
First, in the field of agriculture, it shows the function of plant growth regulation. It can be like a clever conductor, regulating the growth process of plants. It can affect the elongation and division of plant cells, and then affect plant height, leaf size and root development. For example, moderate application of preparations containing this substance may promote more developed crop roots, thereby enhancing their ability to absorb water and nutrients, enabling crops to thrive and improve yield and quality.
Second, in the field of medical research, it may have potential medicinal value. Due to its special chemical structure, it may participate in some biochemical reactions in the human body. Scientists speculate that it may be able to regulate the activity of specific biomolecules and provide new ideas and approaches for the treatment of certain diseases. Although the current related research may still be in the early stage, it has attracted the attention and exploration of many researchers.
Third, in the field of materials science, this substance has also emerged. It can be used as a key raw material for the preparation of new functional materials. Through specific synthesis methods and processes, it can be integrated into materials to give them special optical, electrical or magnetic properties. For example, it can be used to prepare materials with unique photoelectric conversion properties, providing new possibilities for the development of solar cells and other fields.
4-Boron-indole-3-acetate cobalt oxime has shown broad application prospects in agriculture, medicine and materials science. With the deepening of research, it may bring more remarkable breakthroughs and progress in various fields.

What are the precautions for storing 4-phenol sulfonate sodium salt?

4 - Lead borosilicate glass has the following precautions when storing:
First, you need to choose a dry place to store it. If lead borosilicate glass is in a humid environment, water vapor is easy to attach to its surface, and it may cause corrosion on the glass surface for a long time, which will damage its optical properties and chemical stability. Such as ancient treasure utensils, dry secret rooms are also selected to prevent moisture and corrosion. The same is true for this glass. It should be avoided in a humid place and placed in a well-ventilated and low-humidity place to ensure its quality.
Second, temperature control is also the key. Lead borosilicate glass has its own characteristics of thermal expansion coefficient, and sudden temperature changes can easily cause uneven internal stress and risk of cracking. Therefore, when storing, the temperature should be relatively stable to avoid hot and cold. For example, in winter, do not place it in a warm room, and in summer, do not expose it to the hot sun and burst into the cold room. The ambient temperature should be changed slowly to ensure the stability of its structure.
Third, anti-collision is the top priority. Glass is brittle, and lead borosilicate glass is no exception. When storing, it should be properly placed, surrounded by soft objects, such as felt, cotton, etc., to prevent handling or accidental collision and breakage. If stored in a box, the space in the box should be filled to make the glass stable and avoid shaking and impact.
Fourth, avoid contact with chemicals. Although lead borosilicate glass has certain chemical stability, some chemical substances can still react with it and damage its performance. Such as strong acids and alkalis, keep them away. Where it is stored, do not store such chemicals at the same time to prevent inadvertent contact, corrosion of its surface, and damage its characteristics.
Only by following these precautions can the quality of lead borosilicate glass be guaranteed during storage for future use.

What is the production process of 4-phenol sulfonate sodium salt?

The production process of 4-quinolinol is mainly based on the method of chemical synthesis. The method is multi-step and anti-chemical, and the synthesis is carried out with specific raw materials according to a certain procedure and method.
First take the amount of quinoline and extract it in order to remove it and maintain its quality. It is placed in the reactor and added in the amount of solution, so that the quinoline can be fully dissolved to form a uniform liquid phase. The solution of this solution needs to consider the solubility of the reaction material and the effect of the reaction, so as to promote the reaction.
However, in the reaction system, add compounds containing sulfur, such as sulfuric acid, etc. Add caution and control its rate to prevent the reaction from being strong. The quality of the source is also related to the quality of the product and the efficiency of the reaction. When the reaction is added, the degree of integration is generally maintained for a specific temperature. The determination of this degree depends on the characteristics and force of the reaction. At this degree, the reaction of the reaction material interacts, and the cracking of the reaction material is formed, and the coordination compound of the reaction material is formed.
During the reaction period, it may be necessary to apply mixing to make the reaction material fully connected, accelerate the reaction process, and make the reaction more uniform. After the reaction is completed, a mixed solution containing 4-quinolinol is obtained. Next, the reaction material is removed and the product is improved by means of separate extraction methods, such as washing, re-crystallization, etc. It can remove insoluble solids, remove surface-attached residues, and re-crystallize to further improve the quality of the product and the integrity of the crystal form. In this way, high-quality 4-quinoline products can be obtained. The production process needs to carefully control each reaction and operation steps to ensure the quality of the product.

What are the effects of 4-phenol sulfonate on the environment?

Saltpeter alum powder is a good recipe for ancient times. This medicine involves a wide range of effects on the environment, and its impact is also unique.
Saltpeter is cold in nature, and alum stone has the power to restrain dryness and dampness. The combination of the two has been used for healing diseases in the past. However, if it talks about the impact on the environment, it should not be underestimated.
In the soil environment, if it is accidentally scattered on the ground, the chemicals contained in saltpeter may change the pH of the soil. Soil is the foundation for the growth of all things, and changes in pH are related to the rise and fall of various plants. It may make it difficult for some acid-loving plants to survive, and the growth of alkali-loving plants may be unbalanced as a result. And the composition of altzite may accumulate in the soil, affecting the structure of the soil, causing soil compaction, and weakening the ability of ventilation and water permeability, which in turn destroys the balance of the soil ecosystem and affects the survival and reproduction of many microorganisms in the soil.
In the aquatic environment, if saltpeter and altzite flow into rivers, lakes and seas, some ions in saltpeter may exacerbate the eutrophication of water bodies. Phytoplankton such as algae overmultiply due to the sudden increase in nutrients, blocking sunlight, making underwater plants unable to photosynthesize normally, and the amount of dissolved oxygen in the water also decreases, seriously squeezing the living space of aquatic organisms such as fish. Altzite composition may change the turbidity of water bodies, affecting the visual and respiratory physiological activities of aquatic organisms. In the long run, the stability of aquatic ecosystems will be severely damaged.
In the atmospheric environment, although its direct impact is lighter than that of soil and water, during its preparation and use, if not handled properly, the dust or fine particles generated may also escape into the air, increasing the content of inhalable particles in the atmosphere, which has a certain negative impact on air quality and threatens human respiratory health.
Therefore, although saltpeter powder has medicinal properties, its impact on the environment should be treated with caution, and the safety of the environment should not be ignored because of its efficacy.

What are the safety hazards of 4-phenol sulfonate sodium salt during use?

One of them is the health of the user. If the application is not properly prevented, it is easy to invade the skin, respiratory tract or digestive tract. During the period or dosage, it may harm the mental system and cause pain, dizziness, fatigue and other diseases. And it may affect the function of the liver, so that the function of detoxification and excretion is affected.
Second, it is harmful to the environment. 4-quinoline is applied to the field, and part of it remains in the soil, which affects the activity of soil microbial community and the balance of dry soil biological system. In addition, it may also enter the water by means of rainwater, etc., endangering the survival of aquatic organisms. Such aquatic substances have high sensitivity to this substance, which can cause fatigue or cause their physiological functions to fail, and even cause death.
Third, it will cause harm to food safety. If this is not applied to vegetables, fruits and other products, it will not be enough, and people will eat it. Eating products containing high levels of 4-quinoline may increase the risk of disease, which will affect the food safety of the people.
From this, 4-quinolinol should be followed when using it, and it must not be taken away, so as not to cause harm to people's health, health and food safety.