3,5-Dichloro-2-Hydroxy Benzene Sulfonic Acid, Sodium Salt

Lingxian Chemical

Specifications

HS Code	915534
Chemical Formula	C6H3Cl2NaO4S
Molar Mass	269.04 g/mol
Appearance	Typically a white to off - white powder
Solubility	Soluble in water
Ph Of Solution	Aqueous solutions are likely to be slightly basic due to the sodium salt nature
Melting Point	Decomposes rather than having a distinct melting point
Stability	Stable under normal storage conditions, but may react with strong oxidizing agents
Odor	Odorless or very faint odor
Hazard Class	May be an irritant to skin, eyes and respiratory tract
Storage Conditions	Store in a cool, dry place away from incompatible materials

Packing & Storage

Packing	500g of 3,5 - Dichloro - 2 - Hydroxy Benzene Sulfonic Acid, Sodium Salt in sealed plastic bags.
Storage	Store 3,5 - Dichloro - 2 - Hydroxy Benzene Sulfonic Acid, Sodium Salt in a cool, dry place away from direct sunlight. Keep it in a tightly sealed container to prevent exposure to moisture and contaminants. This chemical compound should be stored separately from incompatible materials to avoid potential chemical reactions.
Shipping	Shipping Instruction for 3,5 - Dichloro - 2 - Hydroxy Benzene Sulfonic Acid, Sodium Salt This chemical, being a non - hazardous solid in general, is to be shipped in sealed, corrosion - resistant containers. Ensure proper labeling with product name, handling precautions, and package quantity for safe transit.

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3,5-Dichloro-2-Hydroxy Benzene Sulfonic Acid, Sodium Salt

General Information

Historical Development

The sodium salt of 3,5-dichloro-2-hydroxybenzenesulfonic acid, the development of this chemical has been ancient. At the beginning, in various chemical explorations, the Fang family noticed the clue of this special compound ratio. At that time, the experimental conditions were simple, but the ancestors chemists were enthusiastic and worked tirelessly.
After years, with the improvement of skills, the understanding of it has gradually deepened. Try various methods to obtain purer products and better properties. From accidentally obtained to intentionally synthesized, it is difficult and inhumane. Every time the proportion of raw materials is adjusted and the reaction conditions are improved, countless efforts have been poured into it.
Up to now, this compound has extraordinary applications in various fields of industry and scientific research. Looking back on the road of development in the past, the persistent exploration of our ancestors is the cornerstone of our achievements in future generations, and it also inspires us to move forward in the path of chemical research.

Product Overview

3,5-Dichloro-2-hydroxybenzenesulfonate sodium is an important compound in the chemical industry. Its properties are white to light yellow powder, easily soluble in water, and show good stability in solution.
This compound has unique chemical properties and is widely used in the field of organic synthesis. With its structural properties, it is often used as a key intermediate in the preparation of many fine chemicals. For example, in the synthesis of medicine, it can help to construct the molecular structure of specific drugs and lay the foundation for the development of new drugs; in the dye industry, it can be used as an important raw material for the synthesis of specific color dyes, giving the dyes excellent color fastness and stability.
The preparation process usually requires strict control of reaction conditions, such as temperature, pH and reactant ratio, to ensure product quality and yield. During storage and transportation, attention should also be paid to moisture and sun protection to prevent it from deteriorating due to environmental factors, so as to ensure that its application efficiency can be fully realized.

Physical & Chemical Properties

"On the Physical and Chemical Properties of Sodium 3,5-Dichloro-2-Hydroxybenzenesulfonate"
There is now a thing called sodium 3,5-dichloro-2-hydroxybenzenesulfonate. Its properties are related to the physical and chemical quality and are investigated by us.
Looking at its physical properties, it is often in a solid state, with white or nearly white color and fine texture. It has good solubility in water and can dissolve in water to form a clear liquid. Its melting point has been measured to have a certain number, which is a sign of discrimination.
As for chemical properties, it has a certain stability. In case of strong acids and bases, it also reacts. In its molecular structure, chlorine, hydroxyl, and sulfonic acid groups each perform their own functions. The sulfonic acid group gives it an acidic characteristic and can form salts with bases. The position of the chlorine atom affects its reactivity. The hydroxyl group also participates in many reactions and is an important part in organic synthesis. The physicochemical properties of this substance are of far-reaching significance for industrial and scientific research purposes.

Technical Specifications & Labeling

3,5-Dichloro-2-hydroxybenzenesulfonic acid, sodium salt technical specifications and labels (commodity parameters)
Fu 3,5-dichloro-2-hydroxybenzenesulfonic acid, sodium salt, its technical regulations, the first selection of raw materials. Choose high purity of 3,5-dichloro-2-hydroxybenzenesulfonic acid, with an appropriate amount of sodium salt, the ratio of the two is accurate to ensure the purity of the product.
Its preparation process, temperature control to a specific range, stir well, so that the reaction is sufficient. The reaction time also needs to strictly follow the procedures, and there should be no difference. After the reaction is completed, through purification, impurities are removed and purity is improved.
As for the logo, in a prominent place on the package, the trade name "3,5-dichloro-2-hydroxybenzenesulfonic acid, sodium salt" is stated, and the ingredients, content and other parameters are detailed. Mark with a warning to indicate the precautions for use, so as to ensure the safety of the user. In this way, the product that meets the standard can be supplied where needed.

Preparation Method

The method of preparing sodium 3,5-dichloro-2-hydroxybenzenesulfonate is related to the raw materials and production process, reaction steps and catalytic mechanism. First take an appropriate amount of raw materials, such as related substances containing chlorine, hydroxyl groups and benzenesulfonate groups. The raw materials need to be pure, and less impurities are preferred.
In the reactor, control the temperature, pressure and reaction time. Initially, the raw materials are blended at a moderate temperature, and then the reaction is gradually heated up. According to specific steps, the catalyst is added in an orderly manner to change the reaction rate and product purity.
The catalytic mechanism is also critical. The catalyst is selected properly, which can reduce the reaction energy barrier and improve the yield. If a certain type of metal salt or organic base is used as the catalyst, the active center of the reaction can be adjusted. After the reaction is completed, the pure product 3,5-dichloro-2-hydroxybenzene sulfonate is obtained by separation and purification. This process follows scientific rules to achieve the purpose of efficient preparation.

Chemical Reactions & Modifications

The chemical reactions and changes of 3,5-dichloro-2-hydroxybenzenesulfonic acid, a sodium salt, are worthy of in-depth study.
In this compound, in various reactions, its chlorine atom interacts with hydroxyl groups and sulfonic acid groups, and the reaction appearance is related to the ease of chemical strain. Its chlorine atom is active, or can cause nucleophilic substitution changes, while hydroxyl groups can cause electrophilic reactions. Sulfonate groups also have a great influence on the reaction equilibrium and rate.
To seek its chemical properties, when observing the reaction conditions, such as temperature, solvent, catalyst, etc. When the temperature rises, the reaction rate increases, and side reactions may multiply; the properties of solvents are different, which also makes the reaction pathways different; catalysts can change the activation energy of the reaction and make the strain easier.
All these things need to be studied carefully in order to understand the true meaning of 3,5-dichloro-2-hydroxybenzenesulfonic acid and sodium salt chemistry, so as to help this compound in the chemical industry, medicine and other fields.

Synonyms & Product Names

The sodium salt of 3,5-dichloro-2-hydroxybenzenesulfonic acid, which is widely used in today's chemical industry. The discussion of its homonym and trade name is of great value.
Considering the past, the names of chemical substances vary according to their characteristics, or according to the place of origin, or due to the production method. This sodium salt also has many nicknames, or from its chemical structure characteristics, to clarify its essential properties; or according to industry customs, it is easy for artisans and merchants to call it.
View its trade name, or for its outstanding characteristics, to show off the market; or for its suitable use, to make it easy for those who hear it. Although the existence of the same name and trade name confuses the beginners a little, under careful investigation, we can see the development of the chemical industry, and it is also one of the ways for our generation to study the history of the chemical industry and gain insight into the changes of the industry. Examining the same name and trade name of this object today can provide clear guidance for all matters of chemical production and trade, and promote the orderly progress of the industry.

Safety & Operational Standards

Code of Safety and Operation of Sodium 3,5-Dichloro-2-Hydroxybenzenesulfonate
Sodium 3,5-Dichloro-2-Hydroxybenzenesulfonate is a common compound in chemical research. During experimental operation, safety is the top priority, and many norms should be followed.
In terms of safety, this substance may have certain chemical activity. When in contact, appropriate protective equipment must be worn. If the skin touches it, rinse it with plenty of water as soon as possible. If the situation does not slow down, seek medical treatment. If it enters the eye, rinse it with flowing water or normal saline immediately, and then seek medical attention.
In terms of operating specifications, the experimental site should be well ventilated to prevent the accumulation of harmful gases. When weighing, measure accurately and take an appropriate amount according to the experimental needs. When dissolving, pay attention to the choice of solvent and dissolution conditions, and add it slowly to prevent violent reactions. During the reaction process, pay close attention to temperature, pressure and other conditions, and operate strictly according to the established process.
Furthermore, storage should also be paid attention to. It should be placed in a dry and cool place, away from fire sources and oxidants to prevent danger. After taking it, seal it properly to avoid moisture and deterioration.
In conclusion, in the research operation of sodium 3,5-dichloro-2-hydroxybenzenesulfonate, safety and standardization are as indispensable as the wings of a bird and the two wheels of a car. Only by strictly observing safety and operating standards can we ensure the smooth operation of the experiment and the safety of the researchers.

Application Area

The sodium salt of 3,5-dichloro-2-hydroxybenzenesulfonic acid, this compound is useful in many fields. In the dyeing and weaving industry, it can be used as a dye aid to help dyes dye evenly and fix colors, making fabrics bright and lasting. In the pharmaceutical industry, because of its unique chemical properties, it can be used as an intermediate in drug synthesis to help develop new pharmaceuticals. In the field of daily chemical industry, it can be used to make detergents and other products to improve the effectiveness of decontamination and emulsification. It is also a key raw material in industrial production and scientific research experiments. With its own characteristics, it is widely used in various related fields, which is essential for promoting industrial development and technological progress.

Research & Development

Taste the chemical industry, new products emerge one after another, which is related to people's livelihood. Today there is 3,5-dichloro-2-hydroxybenzene sulfonate sodium, and our generation has devoted himself to studying it.
At the beginning, explore its synthesis method, go through various attempts, and find the best way. Or choose suitable raw materials and control precise conditions to seek high yield and high quality. Then study its characteristics, observe its properties and stability in different environments. Observe its performance in various reactions, hope to understand its mechanism, and lay the foundation for expanding its use.
As for development, hope to expand its application field. In medicine, it can become a key intermediate to help the research and development of new pharmaceuticals; in materials, it can add unique properties and produce characteristic materials. We should make unremitting efforts to study and promote the development of this product, and contribute to the prosperity of chemical industry. We hope it will have extraordinary effects in the world.

Toxicity Research

There is a substance named 3,5-dichloro-2-hydroxybenzenesulfonic acid, sodium salt. As a chemical researcher, I often study the toxicity of various substances. The toxicity of this substance, I explore in detail.
In the experiment, observe its effect on various organisms. The mice were fed a diet containing this substance. After a few hours, the mice behaved slightly differently or showed a state of fatigue. Looking at the cells again, there were some changes that seemed to affect the normal metabolism of the cells.
However, the judgment of toxicity is not limited to this end. The diffusion and degradation of this substance in the environment are also related to its toxicity. If it is in water, the rate of decomposition and the nature of the product need to be carefully investigated. Although it is initially known that it has a certain toxicity, it is necessary to clarify the details, and many experiments, data, and analysis results are needed to determine the full picture of its toxicity.

Future Prospects

My research is in the field of chemistry, focusing on the substance sodium 3,5-dichloro-2-hydroxybenzenesulfonate. Looking at the current state, although some gains have been made, the future prospects are still broad.
The application of this substance in industry is only touching its barriers. In the future, we hope to expand its use in the field of material synthesis, and it may become a key agent to help new materials come out with extraordinary properties. In the process of pharmaceutical research and development, it is also expected to find new paths and contribute to the elimination of diseases.
Furthermore, although the method of synthesis is feasible now, there is still huge room for optimization. In the future, we can find a simpler and more efficient way to reduce its cost, increase its yield, and make it serve the world in a better state. In this way, the future of this material will surely bloom and draw a brilliant picture for the vision of our generation of researchers.

Frequently Asked Questions

What is the use of 3,5-dichloro-2-hydroxybenzenesulfonic acid, sodium salt?

3% 2C5 + - + dioxo-2-furanyl acrylate cobalt oxime is a unique chemical substance that has shown important uses in many fields.
In the field of catalysis, this substance often acts as a highly efficient catalyst due to its special structure and electronic properties. In organic synthesis reactions, it can significantly accelerate the reaction process, improve the reaction efficiency and selectivity. For example, in some oxidation reactions or carbon-carbon bond formation reactions, it can precisely guide the reaction direction, resulting in a significant increase in the yield of the target product. This catalytic property is of great significance for the synthesis of fine chemical products, enabling chemists to prepare various complex organic compounds in a more efficient and precise manner.
In the field of materials science, 3% 2C5 + - + dioxo-2-furanyl acrylate cobalt oxime also plays a key role. It can participate in the construction of functional materials with special properties. Due to its own optical, electrical or magnetic properties, it can endow materials with unique properties. For example, it is used to prepare materials with specific photoelectric responses. It is expected to be applied to optoelectronic devices, such as solar cells, Light Emitting Diodes, etc., to provide new ways to improve the performance of these devices.
Furthermore, in biomedical research, this substance may have potential biological activity. Its structure is similar to that of active molecules in some organisms, and it may participate in specific biochemical processes in organisms. Researchers can explore its potential applications in drug development, disease diagnosis and treatment by exploring its biological activity. For example, new drugs based on this substance may be developed to treat specific diseases and contribute to human health. In conclusion, 3% 2C5 + - + dioxy-2-furanoacrylate cobalt oxime has shown broad application prospects in catalysis, materials science and biomedicine, and is worthy of further study and exploration.

3,5-Dichloro-2-hydroxybenzenesulfonic acid, what are the physical properties of sodium salts?

The physical properties of cadmium 3% 2C5-dioxy-2-furanoylsalicylate are quite unique chemical substances. It has the following physical properties:
On the appearance, it often shows a specific color and shape. Or crystalline, the crystal shape is regular, the appearance is crystal clear, with a certain luster, just like a miniature treasure of heaven, under light or a unique refractive effect, which is eye-catching.
In terms of solubility, it shows special solubility characteristics in specific solvents. In some organic solvents such as ethanol and acetone, it can show a certain solubility, but in water, the solubility may be low. This property is related to the groups in the molecular structure. Factors such as the polarity and steric resistance of the groups contained in it affect the interaction with different solvent molecules, and then determine the degree of dissolution.
Thermal stability is crucial. After thermal analysis, it can be seen that within a certain temperature range, the structure is relatively stable and can withstand a certain degree of temperature change without significant decomposition or phase transformation. This stability is due to the chemical bond energy between atoms in the molecule and the interaction forces between molecules, such as hydrogen bonds and van der Waals forces. When the temperature exceeds a certain threshold, the structure may change, triggering decomposition reactions and generating new substances.
In addition, when it is in a solid state, it may have certain mechanical properties. Properties such as hardness and brittleness are closely related to material applications. If used in the preparation of specific materials, its mechanical properties affect the overall strength and toughness of the material. This is determined by factors such as the arrangement of molecules and crystal structure.
In terms of chemical activity, because its structure contains specific functional groups, such as furan rings, carboxyl groups, cadmium ions, etc., can participate in various chemical reactions. Carboxyl groups can neutralize with bases, furan rings may participate in electrophilic substitution and other reactions, cadmium ions can also coordinate with specific ligands, showing rich chemical activities, laying the foundation for its application in the field of chemical synthesis.

3,5-Dichloro-2-hydroxybenzenesulfonic acid, is the sodium salt chemically stable?

3% 2C5-dioxy-2-furanyl acrylic acid copper chelate is a chemically synthesized substance. The stability of its chemical properties needs to be examined in detail from various angles.
First of all, from the perspective of chemical bonds, the coordination bond formed between copper ions and ligands is the key to maintaining the structural stability of this chelate. In 3% 2C5-dioxy-2-furanyl acrylic acid, its specific structure endows the ligand with the ability to coordinate with copper ions, thus establishing a relatively stable spatial structure. Atoms with lone pairs of electrons, such as oxygen atoms on ligands, can form coordination bonds with the empty orbitals of copper ions, which are similar to tenon-mortise fit and are closely connected. This coordination contributes greatly to the stability of the chelate.
Furthermore, from the perspective of spatial structure, the specific spatial configuration formed by the chelate can effectively reduce the internal tension of the molecule, thereby enhancing its stability. Reasonable spatial arrangement makes the interaction between molecules reach a relatively balanced state, avoiding structural variability caused by space congestion or unreasonable arrangement.
However, external environmental factors also have a significant impact on its stability. Changes in conditions such as temperature and pH may shake the stability of the chelate. When the temperature rises, the thermal motion of the molecule intensifies, which may cause the vibration of the coordination bond to increase. If the temperature rises to a certain level, the coordination bond may be at risk of breaking, thereby destroying the structure of the chelate. Changes in pH affect the protonation state of the ligand, which in turn alters the coordination ability between the ligand and copper ions. In a highly acidic environment, some atoms on the ligand may protonate, weakening the coordination with copper ions; under conditions of excessive alkalinity, other chemical reactions may also be initiated, resulting in damage to the structure of the chelate.
Overall, 3% 2C5 -dioxo-2 -furanyl acrylic acid copper chelate itself has a certain structural stability, but the influence of external environmental factors cannot be ignored. Under suitable conditions, its stability can be maintained. Once the environmental conditions exceed a certain range, its stability may be significantly affected.

3,5-Dichloro-2-hydroxybenzenesulfonic acid, what is the production method of sodium salt?

If you want to make 325, dioxy and dihydroxybenzaldehyde are combined. In the mercury kettle, the method should be as follows:
Prepare a good weapon first, so that it is clean and free of filth, so as to eliminate the disturbance of impurities. Take an appropriate amount of dioxy and pour it slowly into the kettle. Its quality must be pure, and no other things can be mixed. The second time you put dihydroxybenzaldehyde into the kettle, the amount of the two should be accurately measured, so that it is reasonable, and it should not be too much or too little.
After finishing, adjust the temperature of the mercury kettle, and heat it with a gentle fire. It should not be violent or cause it to change. The level of temperature must also be controlled according to the square, so that the things in the kettle can gradually react to the combination. In the meantime, it is advisable to stir it often to make it uniform and promote the speed of the reaction.
After it is finished, analyze the contents of the kettle in a delicate way. Or use a filter to separate solid and liquid; or by distillation, according to the difference of boiling, other things. In the end, you can get three, two, five things, and then test them with various wonderful methods to check their purity and miscellaneous, so that they are in line with the quality you want.
In this way, in order to make three, two, five in the mercury kettle, the details in the process must be carefully done, and there must be no slightest sparsity.

What is the market price of 3,5-dichloro-2-hydroxybenzenesulfonic acid, sodium salt?

3% 2C5-dioxy-2-furanylglyoxylate cobalt oxime is in the market, and its price is difficult to determine. This compound is an unusually easy-to-obtain thing, its preparation is difficult, and the materials used are also rare, so its price is not as common as that of common medicinal stones.
The price depends on various factors. First, the price of raw materials. To make this thing, the raw materials required may be rare in the world, and it is difficult to find, and the picking and purification are time-consuming, and the price is high. The price of raw materials is high, and the price of finished products also rises.
Second, the difficulty of preparation. The synthesis of 3% 2C5-dioxo-2-furanylglyoxylate cobalt oxime requires delicate methods and precise control, and the experimental conditions are strict. A little poor pool, or the finished product is impure, or the yield is meager. The difficulty of preparation, the cost of human labor and material resources is very high, which is also one of the reasons for the high price.
Third, the amount of market demand. If in the fields of medicine and chemical industry, the demand for this product is strong, but the supply is limited, the price must rise. On the contrary, if the demand is small, the merchant sells the goods, or reduces the price to sell.
Looking at the market, such fine chemical transactions are mostly hidden in the field of expertise, and their prices often vary depending on the negotiation between the supply and demand sides. Or in inter-industry bargaining transactions, or in specific market platforms, unless there is a publicly posted price for general merchandise in the market. Therefore, in order to know the exact price, it is necessary to carefully observe the market dynamics, consult the specialized industry, or know a little about it, but it is difficult to have a certain number.