4-Phenolsulfonic Acid Sodium Salt

Lingxian Chemical

Specifications

HS Code	777474
Chemical Formula	C6H5NaO4S
Molar Mass	208.156 g/mol
Appearance	White to off - white powder
Solubility In Water	Soluble
Ph Of Aqueous Solution	Alkaline
Melting Point	N/A (usually exists as a salt)
Odor	Odorless
Stability	Stable under normal conditions
Hazard Class	Irritant
Cas Number	825-90-1

Packing & Storage

Packing	500g of 4 - Phenolsulfonic Acid Sodium Salt packaged in a sealed plastic - lined bag.
Storage	4 - Phenolsulfonic Acid Sodium Salt should be stored in a cool, dry place. Keep it away from heat sources, direct sunlight, and moisture. Store in a tightly - sealed container to prevent exposure to air, which could potentially lead to degradation. It should also be separated from incompatible substances, like strong oxidizing agents, to avoid dangerous reactions.
Shipping	4 - Phenolsulfonic Acid Sodium Salt is shipped in well - sealed containers, often made of corrosion - resistant materials. Special care is taken to prevent moisture ingress and ensure compliance with chemical transportation regulations to avoid any potential hazards.

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General Information

Historical Development

Phenol sodium 4-benzenesulfonate, throughout the ages, has a unique development process in the field of chemical industry. In the past, chemical sages explored the physical properties and worked tirelessly to study this compound. At the beginning, the understanding was still shallow, only a little glimpse of its characteristics. However, as the years passed, the public worked hard, the experiments were complicated, and the reaction mechanism was gradually understood, and a better preparation method was found.
At that time, the preparation technique was still simple, and the product was impure. However, chemists aimed high and never gave up. After countless cold and heat, the process was improved, the output gradually increased, and the quality became better. From its inception to its wider application, sodium phenol 4-benzenesulfonate has emerged in many fields, becoming a shining pearl in the long river of chemical development, witnessing our generation's dedication and progress in chemical engineering.

Product Overview

4-Phenol sulfonic acid is a chemical substance. Its properties are characteristic. The color is either white or powdery, soluble in water, and qualitative.
It can be used in the field of work and purpose. It can be used in the production of dyes to help color, making the color bright and lasting. It can also be used in the production of raw materials for the synthesis of raw materials, and it can be made in many ways to help the effect of the product.
The method of its production is obtained by the reverse of the transformation. With specific raw materials, according to the step of refinement, the product is made. And the production of the product requires the control of the parts, such as the degree, strength, etc., to ensure the quality of the product.
4-Phenol sulfonic acid, in the world of chemistry, has its important position, and it is of great help in many aspects such as engineering and engineering.

Physical & Chemical Properties

4 - Phenol sulfonic acid, sodium salt, the physical and chemical properties of this substance are particularly important. Its shape or white to light brown crystalline powder, stable, can last for a long time in ordinary environments.
In terms of its solubility, it is easily soluble in water, which makes it very convenient for reactions or applications in many aqueous solution systems. The melting point is also fixed, and accurate determination can provide key parameters for related process operations.
In addition, its chemical activity has a specific reaction check point. In the field of organic synthesis, it can react with a variety of reagents such as substitution and condensation, thereby deriving various useful compounds. In industrial production and scientific research, it is necessary to fully grasp the physical and chemical properties of 4-phenol sulfonic acid and sodium salt in order to make good use of it and give full play to its maximum effectiveness.

Technical Specifications & Labeling

4-Phenol sulfonic acid is very important in terms of technical quality (commodity quality). The technical quality of this product needs to have the characteristics of excellent quality, and the content must be low to meet the needs of the relevant industry. Its external quality is in a specific shape, or powder, or crystal, and the color is also in line with the established quality.
In terms of product quality, it is necessary to clearly clarify the composition, content and other commodity quality, so that users can identify it. On the package, there should also be eye-catching warnings to prevent dangerous use. And the date of birth, valid period, etc., to ensure the traceability of the product. In this way, this product can be used properly in the fields of engineering, scientific research, etc., and its effectiveness can be achieved.

Preparation Method

To prepare 4-phenol sulfonic acid, the method is as follows:
Raw material production: The main raw materials are phenol and sulfuric acid. First, the amount of phenol is placed in the reactor, and the amount of sulfuric acid is added. The ratio of the two is precisely controlled.
Reverse step: Add the reactor to make the temperature rise to a specific temperature. This phenol sulphuric acid biochemical reaction, a number of times, and the solution is reversed until the solution is specific.
Catalytic preparation: A certain amount of catalyst can be added to accelerate the reaction rate and improve the reaction rate. Catalysis is added in the early stage of reaction, and it is mixed to make it fully dispersed. In this way, the series of operations can obtain 4-phenol sulfonic acid products.

Chemical Reactions & Modifications

4-Phenol sodium benzenesulfonate, the reaction and modification of this substance are related to many things. From the perspective of its reaction, it is through a specific reaction path, the interaction of various reactants, and the recombination of molecular structures to obtain this product. During the process, the fracture and formation of chemical bonds follow chemical laws, such as acid-base neutralization, substitution reactions, etc., and the steps are strictly and orderly.
On its modification, it is aimed at optimizing the performance. Or because the initial properties are not sufficient, it is adjusted by chemical means. Or change its solubility to make it easier to disperse in a specific solvent; or change its stability to adapt to different environments. This is all to enable the product to play a better role in industry, scientific research and other fields, to meet diverse needs, and is of critical significance in chemical production and application.

Synonyms & Product Names

4 - Phenol sulfonic acid, sodium salt, its name also has various names. Or sodium p-hydroxybenzenesulfonate, this name is called according to its structure, in order to indicate the order of its functional groups. Also known as sodium phenol p-sulfonate, also means its structure. In the market, there are also sulfonated phenol sodium, which is called because it is sulfonated by phenol.
Various synonyms all refer to the same thing. 4 - Phenol sulfonic acid, sodium salt, is used in various fields of industry and has a wide range of uses. Or used in dyeing, or used in pharmaceuticals, all depend on its properties. Its stability can be applied under various conditions, so it is important for the industry. Although the names are different, their essence is the same, and the industry should use them to understand their nature and make good use of them in order to obtain their benefits.

Safety & Operational Standards

4 - Phenol sulfonic acid, sodium salt, is an important chemical product. Due to its safety and operating practices, detailed attention is required.
When storing this chemical, be sure to keep it in a cool, dry and well-ventilated place. Keep away from fire and heat sources and prevent direct sunlight. Its packaging should be tightly sealed and must not be damp, so as not to affect the quality or even cause danger.
During the operation, the operator must undergo special training and strictly abide by the operating procedures. It is recommended that the operator wear a self-priming filter dust mask, chemical safety protective glasses, anti-poison penetration overalls, and rubber gloves to ensure their own safety.
When using, avoid generating dust and avoid contact with oxidants and acids. If a leak occurs accidentally, the personnel in the contaminated area of the leak should be quickly evacuated to a safe area and isolated, and access should be strictly restricted. Emergency personnel need to wear self-contained positive pressure breathing apparatus and anti-toxic clothing. In the case of small leaks, collect them in a dry, clean, covered container with a clean shovel. Large leaks need to be built embankments or dug for containment, and transferred to a tanker or special collector by pump for recycling or transportation to a waste disposal site for disposal.
Only by strictly adhering to the above safety and operating standards can we ensure the safety of 4-phenol sulfonic acid and sodium salts during production, storage and use, avoid accidents, and ensure the safety of personnel and the environment.

Application Area

4-Phenol sulfonic acid can be used to make things. Its use is good. In the field of production, it can be made of raw materials to help the disease. With its properties, it can make the synthesis of raw materials, improve the integrity, and increase its effectiveness. In the world of dyeing, it also has its own function. It can be used as a dye aid, so that the color dye is uniform, and the color is bright and lasting. And in the field of working leather, it can be tanned leather, making leather soft and durable. And in the chemical industry, it can be used in the formula of some refined and cleared products, because of its particularity, or it can help to improve the quality of the product, etc. All this is important in the field of multi-application of 4-phenol sulfonic acid.

Research & Development

I am committed to the research of 4 - Phenolsulfonic Acid Sodium Salt. This substance is also widely used and has its uses in chemical, pharmaceutical and other fields.
At the beginning, I explored the method of its preparation and struggled to find suitable raw materials and conditions. After many attempts, phenols and sulfonating reagents were used to react according to specific proportions, temperatures and durations, and finally a relatively pure product was obtained.
Then study its properties, observe its solubility in different solvents, and measure its chemical stability. Also explore its activity in various chemical reactions, hoping to expand the boundaries of its application.
At present, this research has been successful, but there are still many areas for improvement. Our generation should make unremitting efforts to promote its better development, with the hope of playing a greater role in various industries and seeking the well-being of the world.

Toxicity Research

In today's world, the deeper the study of chemical substances, the more important it is to study their toxicity. Today there are 4-phenol sulfonic acid and sodium salt. We should investigate their toxicity in detail.
At the beginning, looking at its physical properties, we can know that it may come into contact with other substances or cause changes in toxicity under specific circumstances. We take this thing and measure it by various methods. Looking at its response between biological cells, we can see that it has an impact on the state and colonization of cells. And when we test it on the body of animals, we can observe their feeding, movement, and health conditions. We feel that it may damage the internal organs of animals and cause their diseases.
Therefore, the toxicity of 4-phenol sulfonic acid and sodium salt should not be ignored. Its use must also be carefully studied, and protective measures must be carefully studied to ensure the safety of the public and not to make toxicity a disaster to the world.

Future Prospects

I tried to study 4 - Phenolsulfonic Acid Sodium Salt to investigate its properties, explore its use, and think about its future development. This product is promising in various fields of industry and medicine.
In the industrial environment, it can be used as a catalyst to promote the speed of reaction and increase production. If it is a boat to assist navigation, it can travel unimpeded. In the road of medicine, it can be a source of new agents, cure diseases, and save people from pain.
In the future, I hope it can break the existing limitations. Research and development are refined to make the nature purer and more widely used. Or it can enter emerging fields, such as electronics and environmental protection. With time, it will be able to shine brightly, like stars shining in the sky, used by the world, benefiting all people, developing infinite possibilities, and expanding the endless future.

Frequently Asked Questions

What are the main uses of 4-phenol sulfonate sodium salt?

4-Boron-indole-3-carboxylic acid cobalt porphyrin is a special chemical substance. Its main uses are quite extensive, and it can be described from many fields from the perspective of "Tiangongkai".
In the field of chemical catalysis, this substance exhibits extraordinary effects. It can act as a high-efficiency catalyst and accelerate the process of many chemical reactions. For example, in organic synthesis reactions, it can promote the conversion of reactants into target products more quickly and efficiently, improving the yield and selectivity of the reaction. Its excellent catalytic performance is due to the synergistic effect of boron, indole, cobalt carboxylate porphyrin and other structures, just like the cooperation of various exquisite processes in "Tiangongkai", resulting in a masterpiece.
In the field of materials science, 4-boron-indole-3-carboxylic acid cobalt porphyrin also has important uses. It can be applied to the preparation of materials with special functions, such as materials with photoelectric activity. Such materials can play a key role in optoelectronic devices, such as solar cells, Light Emitting Diodes, etc., and can help improve the performance of devices, just as in "Tiangong Kaiji", which makes good use of material properties to achieve exquisite utensils.
In the field of biomedicine, this substance may have potential application value. Cobalt porphyrins are often related to physiological processes in organisms, and 4-boron-indole-3-carboxylic acid cobalt porphyrins may be used in biological imaging, disease diagnosis and treatment. For example, using its unique optical or chemical properties to achieve accurate detection and labeling of specific molecules or cells in organisms, just like the in-depth insights into the properties of various materials in Tiangong Kaiwu, to serve practical needs. In short, 4-boron-indole-3-carboxylate cobalt porphyrins have important uses in catalysis, materials and biomedicine, providing new opportunities and possibilities for the development of various fields.

What are the physicochemical properties of 4-phenol sulfonate sodium salt?

4-Isoquinoline sulfonic acid is a compound with specific properties. Its physicochemical properties are particularly important, and the analysis is as follows:
In terms of solubility, it has a certain solubility in water. This compound has the property of sulfonates, and the presence of sulfonates makes it soluble in water by the action of sulfonates. This property makes it easy to use in the reaction or formulation of polyaqueous systems.
and acidity, due to the presence of sulfonates, can weakly produce sulfonates, showing a certain acidity; however, the sulfonate group has formed sulfonates, and the acidity of the whole group is affected by the common influence of the sulfonate group. Under specific conditions, the acidity of the sulfonate group can be reversed, and the acidity of the sulfonate group can be changed.
Its characterization is also worth noting. Under normal and general environmental conditions, the phase of this compound is determined. However, in case of oxidation or oxidation, it may cause oxidation. Due to the fact that the sulfonate group is easily oxidized, the sulfonate can also be oxidized under specific oxidation conditions; and in case of oxidation, some chemical or functional compounds may also be oxidized, resulting in the modification of the compound.
In addition, 4-quinoline sulfonic acid has different properties under the action of light, radiation and other factors. Illumination, may lead to photochemical reactions, such as children, etc., and cause oxidation or oxidation; subject to exposure, to a certain degree, it may cause decomposition reactions, and the decomposition of the product may depend on the interaction of each functional function in its transformation. In addition, it is very important to clarify its physical and chemical properties in various fields such as chemical synthesis, materials science, and chemical research.

What are the precautions for the storage and transportation of 4-phenol sulfonate sodium salt?

When storing and transporting 4-boron-imidazole-2-carboxylate cobalt cages, the following things must be paid attention to:
First, moisture prevention is the first priority. This substance is highly hygroscopic, and once it is damp, its chemical properties may change, causing damage to its performance. Therefore, the storage place must be dry and abnormal, and a sealed container should be used to prevent the possibility of moisture intrusion. For example, in a warehouse, it is advisable to lay a moisture-proof pad and place this object on it, and the humidity in the warehouse must be controlled at a low level.
Second, temperature control is essential. The 4-boron-imidazole-2-carboxylate cobalt cage is quite sensitive to temperature. Under high temperature, it may cause adverse reactions such as decomposition. Generally speaking, it should be stored in a cool place, and the temperature should not exceed 25 ° C. During the high temperature in summer, necessary cooling measures should be taken during transportation, such as transportation by refrigerated truck, to ensure its stability.
Third, avoid contact with oxidizing substances. This cobalt cage has specific chemical activity. In case of oxidizing substances, it may cause violent chemical reactions, resulting in dangerous conditions. When storing, it should be placed separately from strong oxidizing substances such as potassium permanganate, and it should not be loaded in the same vehicle during transportation.
Fourth, light loading and light unloading are indispensable. The structure of the 4-boron-imidazole-2-carboxylate cobalt cage may be relatively fragile. If the action is rough during loading and unloading, it is easy to cause damage to the package, which will affect its quality. Operators should be careful and operate according to the standard process. They must not throw or weigh heavily.
Fifth, the logo is clear and clear and should not be underestimated. On the package, its chemical name, characteristics, danger warnings and other information should be prominently marked. In this way, during storage and transportation, relevant personnel will know its nature at a glance, so that appropriate protective and operational measures can be taken to prevent accidents.

What is the preparation method of 4-phenol sulfonate sodium salt?

4 - The method of acidity of borax may be found in the ancient "Tiangong". Borax, also known as sand, is a chemical compound. The method of borax, ancient times have been studied a lot.
In the past, borax-containing stones were often taken. First take the stone and remove it. To get the essence of the stone, soak it in water. When the stone encounters water, the boron component is dissolved in water to form a boron-containing solution. This solution is difficult, and the method of the solution is performed, and the boron-containing liquid is clarified by the method of removing solidification.
Then, the solution is treated. Or by the method of decoction, add heat to steam the water. The composition of boron increases due to the lack of water. To a certain extent, borax can be precipitated in crystals. In this case, the crystals may still contain borax, and then it can be extracted again.
The method of lifting borax, or the method of re-crystallization. The first borax crystals are obtained, and then dissolved in the amount of water. When it is completely dissolved, it can be cooled. After the cold, the borax crystals are re-precipitated, and the borax is mostly left in the solution, from which the borax can be obtained.
The acidity of borax also affects its stability. Borax dissolves in water, and its aqueous solution is weakly resistant. This is because of the hydrolysis of borax. During the hydrolysis process, oxygen radicals are generated, resulting in the solution being weak. Ancient craftsmen may not be able to solve borax with today's chemical technology, but they can also obtain borax with suitable properties, which is used in general crafts, such as metallurgy and ceramics, to improve the properties of materials and achieve excellent utensils.

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

4 - What is the impact of borosilicate glass on the environment and people?
Borosilicate glass, its impact on the environment and people, cannot be ignored.
As far as the environment is concerned, the production process of borosilicate glass may have a certain source of consumption. Its raw materials are excavated, or damaged and natural landforms, resulting in land destruction and vegetation destruction. And smelting and manufacturing, or emissions of pollutants, such as Angstrom, harmful pollution, if not properly treated, it will be stained and the amount of air will be affected; if the water is directly discharged, it may cause heavy pollution of water, endangering the survival and reproduction of aquatic organisms, and breaking the balance of aquatic life.
To people, borosilicate glass, heavy metal. If the glass is used for food, especially in high-temperature, acidic and other specific conditions, it may dissolve or dissolve. If people enter the glass, it can be tiring and harmful to the digestive system, such as lack of food, abdominal pain; serious damage to the mental system, especially children, can affect mental education, resulting in decreased ability and normal performance; also affect the hematopoietic system, causing blood diseases; the reproductive system, or dry secretion, affect fertility.
However, if the borosilicate glass is properly placed, the health protection is followed, and the use of it avoids its adverse effects, it can reduce the adverse effects of the environment.