1,2-Dihydroxybenzene-3,5-Disulphonic Acid Disodium Salt Monohydrate

Lingxian Chemical

Specifications

HS Code	660642
Chemical Formula	C6H4O8S2Na2·H2O
Molar Mass	350.22 g/mol
Appearance	White to off - white powder
Solubility In Water	Soluble
Ph In Aqueous Solution	Neutral to slightly acidic
Melting Point	Decomposes before melting
Density	N/A (powder)
Stability	Stable under normal conditions
Application	Used in some dyeing and pigment industries

Packing & Storage

Packing	1 kg of 1,2 - Dihydroxybenzene - 3,5 - Disulphonic Acid Disodium Salt Monohydrate in sealed container.
Storage	Store 1,2 - Dihydroxybenzene - 3,5 - Disulphonic Acid Disodium Salt Monohydrate in a cool, dry place. Keep it away from sources of heat and direct sunlight to prevent decomposition. Store in a well - closed container to avoid moisture absorption, which could affect its stability and purity. This helps maintain its chemical integrity during storage.
Shipping	1,2 - Dihydroxybenzene - 3,5 - Disulphonic Acid Disodium Salt Monohydrate is shipped with special precautions. Packed in sealed, corrosion - resistant containers, it's handled to prevent moisture and damage during transport to ensure chemical integrity.

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1,2-Dihydroxybenzene-3,5-Disulphonic Acid Disodium Salt Monohydrate

General Information

Historical Development

The rheology of 1,2-dihydroxybenzene-3,5-disulfonic acid disodium salt monohydrate has been known since ancient times. In the past, many wise men have explored the way of chemistry. At the beginning, the understanding of this object was still shallow, and only a little bit of its appearance was known.
After years, wise men have studied the physical properties and explored its inner principles with exquisite methods. In the laboratory, repeated trials were conducted to observe its changes in different situations.
With the passage of time, the understanding of 1,2-dihydroxybenzene-3,5-disulfonic acid disodium salt monohydrate has gradually deepened. Know the mystery of its structure and understand the rules of its reaction. This substance has emerged in many fields, contributing to the development of chemistry and laying the foundation for further study in later generations. The process of rheology is like a long picture, slowly spreading out in the long history of chemistry.

Product Overview

1,2-Dihydroxybenzene-3,5-disulfonic acid disodium salt monohydrate, which is a chemical I have been working on recently. It is crystalline and shines with a unique luster under light.
In this compound, the dihydroxy group is connected to the benzene ring, and the sulfonic acid group gives it special chemical activity. The disodium salt form makes it soluble in water, and the monohydrate structure also has an important impact on its stability.
In experiments, it was observed that it reacts with various reagents and found that it can exhibit unique chemical properties under specific conditions. This substance may have potential application value in some fine chemical synthesis fields, and can be used as a key intermediate to assist in the preparation of new materials. I will continue to explore in depth to clarify more of its features and applications.

Physical & Chemical Properties

1,2-Dihydroxybenzene-3,5-disulfonic acid disodium salt monohydrate, the physical and chemical properties of this substance are the key to our research. Its color state is also often [specific color state description], and its shape can be seen from the perspective. As for the melting point, it is about [X] ° C, and it changes when heated. Solubility is very important, soluble in water, forming [solution-related description].
Its chemical properties cannot be ignored. It is acidic and can neutralize with bases to form corresponding salts. Under specific conditions, it can participate in many chemical reactions, such as reacting with [list related reactants], to obtain [product description]. These various properties are the cornerstones for in-depth exploration of this object and its use. We should study it in detail to understand its rationale and use it properly for the benefit of the world.

Technical Specifications & Labeling

Technical specifications and labeling of 1,2-dihydroxybenzene-3,5-disulfonate disodium salt monohydrate (commodity parameters)
Fu 1,2-dihydroxybenzene-3,5-disulfonate disodium salt monohydrate, its technical specifications, the first weight of the composition is accurate. Its chemical structure is clear, and the ratio of each atom must conform to the established formula. During production, temperature, pressure and other conditions need to be strictly controlled to ensure that the reaction is complete and impurities are not present.
As for the label, its name needs to be specified. The book is fully titled "1,2-dihydroxybenzene-3,5-disulfonate disodium salt monohydrate" and cannot be corrupted. The chemical formula is used to indicate its chemical composition. In terms of commodity parameters, the number of purity must be accurate, and the water content must also be known, so that the user can distinguish its advantages and disadvantages and use it correctly.

Preparation Method

Preparation method of 1,2-dihydroxybenzene-3,5-disulfonic acid disodium salt monohydrate (raw materials and production process, reaction steps, catalytic mechanism)
If you want to prepare 1,2-dihydroxybenzene-3,5-disulfonic acid disodium salt monohydrate, the selection of raw materials is crucial. When a specific proportion of phenolic compounds and sulfonating reagents are used as starting materials. First, the phenols and sulfonating reagents are mixed at a suitable temperature, and the temperature is controlled at [X] ° C, so that the sulfonation reaction is orderly. This is the first step.
The reaction steps also need to be accurately grasped. At the beginning of the reaction, closely observe the reaction signs. When the sulfonation is initially completed, add alkali solution dropwise to adjust the pH of the system to [X]. Subsequently, crystals are precipitated by cooling and crystallization.
In terms of catalytic mechanism, specific catalysts can be introduced to accelerate the reaction process and improve the yield. The catalyst activity check point is affinity with the reactants, which promotes the reaction to proceed efficiently. In this way, according to this preparation method, 1,2-dihydroxybenzene-3,5-disulfonate disodium salt monohydrate can be obtained.

Chemical Reactions & Modifications

Modern chemistry has been refined, and the research on various compounds has been continuous. In today's discussion of 1,2 - Dihydroxybenzene - 3,5 - Disulphonic Acid Disodium Salt Monohydrate, the investigation of its chemical reaction and modification is crucial.
Looking at the reaction, under specific conditions, the hydroxyl group, sulfonic acid group and other groups in the molecule may change nucleophilic and substituted, which affects its chemical properties. To change its properties, you can adjust the reaction temperature, pH, or add a suitable catalyst.
When the temperature rises, the reaction rate increases, but if it is too high, it may cause side reactions. Different pH levels, the degree of ionization of compounds varies, and the left and right reaction directions. Catalyst can reduce the activation energy of the reaction, promote the reaction speed, and help to obtain the required modified products, so that this product can be used in materials, medicine, and other fields to develop different functions and explore new paths for chemical research.

Synonyms & Product Names

1,2-Dihydroxybenzene-3,5-disulfonate disodium salt monohydrate, also known as resorcinol-3,5-disulfonate disodium salt monohydrate. The name changes due to industry habits and application scenarios.
In the field of chemical research, scholars often name 1,2-dihydroxybenzene-3,5-disulfonate disodium salt monohydrate according to its chemical structure, which accurately demonstrates its molecular composition and is conducive to academic exchanges and research.
In commercial circulation, for the sake of memory and dissemination, the common name of resorcinol-3,5-disulfonic acid disodium salt monohydrate is more commonly used, and both merchants and buyers use this name.
Although the names are different, they actually refer to the same thing, which is a compound with important uses in many fields of chemical industry.

Safety & Operational Standards

The safety and operation of 1,2-dihydroxybenzene-3,5-disulfonate disodium salt monohydrate requires strict adherence to the following guidelines for the use of this chemical.
Detailed attention should be paid to the properties of this substance. Its chemical structure is well established, its properties are stable but there is also the possibility of specific reactions. When taking it, be sure to wash your hands and face first, wear protective clothing, goggles and gloves to prevent direct contact and damage to your skin and eyes.
Operate in a well-ventilated place to avoid inhalation hazards caused by dust flying. If you inhale accidentally, leave the scene quickly and go to a fresh air place, and seek medical attention if necessary. If it comes into contact with the skin, immediately rinse with a large amount of water, followed by soap; if it enters the eyes, rinse quickly with flowing water and seek medical treatment.
When storing, keep it in a cool, dry and ventilated place, away from fire and heat sources, and avoid mixing with oxidants, acids, etc., to prevent dangerous reactions. Handle with care to avoid package damage.
After use, properly dispose of the residue, do not discard it at will, and operate in accordance with chemical waste disposal specifications to prevent environmental pollution.
In this way, strictly abide by safety and operating specifications, so that when using 1,2-dihydroxybenzene-3,5-disulfonic acid disodium salt monohydrate, ensure the safety of personnel and the environment.

Application Area

1,2-Dihydroxybenzene-3,5-disulfonic acid disodium salt monohydrate, this compound has a wide range of applications. In the dyeing and weaving industry, it can be used as a mordant dyeing aid, which helps the dye to be attached to the fabric to make the color bright and lasting. In the pharmaceutical industry, it may be involved in the intermediate link of drug synthesis, and it is a pharmaceutical aid for specific effects. In the chemical industry, it can also be used as a catalyst or regulator for certain reactions to help the reaction go forward and control the speed and degree of the reaction. It is unique in nature and has important functions in all fields of use. It is just like a boat on water, which leads to the progress of various industries and promotes its development. It is valuable in the industrial and medical fields.

Research & Development

Today there is a product named 1,2-dihydroxybenzene-3,5-disulfonic acid disodium salt monohydrate. As a chemical researcher, I am very concerned about the research and development of this product.
This product has unique properties and potential application value. After repeated experiments, it may play an important role in the fields of chemical industry, medicine and so on. However, the road of research is full of thorns. To make it widely used, many problems need to be overcome, such as purification methods and precise control of reaction conditions.
My colleagues and I study day and night, combining ancient methods with modern technologies, hoping to find breakthroughs. Although the process is arduous, we firmly believe that with unremitting efforts, this product will be able to give full play to its potential, shine in various fields, and benefit the world, promoting the development of chemical research.

Toxicity Research

The nature of tasting and smelling things is related to human use, so toxicological research is really the way to go. Today there are 1,2 - Dihydroxybenzene - 3,5 - Disulphonic Acid Disodium Salt Monohydrate. The toxicological study of this substance cannot be ignored.
Examine this substance in detail, and study its impact on life. Or test it on insects, fish, birds and beasts, and observe its changes in form and spirit, and its state of life. If you apply it to mice, see if there are any differences in their diet, activities, and reproduction; if you cast it on birds, see if their wings, singing, and health are normal.
And examine its role in the environment, water, soil, how does it touch? Flowers, plants, trees, how did you encounter it? It is clear whether it is left on the ground or stagnant in water, which will cause ecological discipline.
The study of toxicology is related to people's livelihood and nature. It is necessary to use a rigorous attitude and fine travel to explore its subtleties and understand its poison, so as to ensure the safety of life in the world and the tranquility of the environment.

Future Prospects

Today there is a product called 1,2-dihydroxybenzene-3,5-disulfonic acid disodium salt monohydrate. Looking at this product, it contains endless potential and is full of hope for future development.
This compound has a unique structure and strange properties. It may emerge in the field of medicine and bring good news to the sick. It may also shine in materials science and help the birth of new materials. Although its application is not yet widespread, I firmly believe that with the deepening of research and the advancement of technology, more value will be tapped.
Our scientific researchers should enjoy studying and explore, and work tirelessly to uncover its mystery. Looking forward to the future, this thing can shine like a bright star in the sky of science, contributing to the progress of mankind.

Frequently Asked Questions

What is the main use of 2-Dihydroxybenzene-3 5-Disulphonic Acid Disodium Salt Monohydrate?

1% 2C2-dihydroxybenzene-3% 2C5-disulfonic acid disodium salt monohydrate, this is the scientific name of the chemical substance. It has a wide range of uses and can play an important role in many fields.
In the dye industry, it is often used as a key intermediate. Through a specific chemical reaction, it can be combined with other compounds to synthesize colorful and high-performance dyes. Due to its chemical structure, it can endow the dye with excellent stability and dyeing effect, making the dye bright and lasting.
In the field of pharmaceutical research and development, it also has its own influence. Due to its unique chemical properties, it may participate in the construction of some drug molecules, providing the possibility for the creation of new drugs. Its structural properties may help drugs to combine with specific targets, thus exerting therapeutic effects and helping to overcome various diseases.
In the chemical production process, it can act as a catalyst or auxiliary agent. By virtue of its own properties, it promotes the smooth progress of chemical reactions, improves reaction efficiency and reduces production costs. In some complex chemical synthesis processes, it can precisely regulate the direction and rate of reactions to ensure the production of high-quality chemical products.
In scientific research experiments, as an important chemical reagent, scientists often use it to carry out various chemical research. Through in-depth exploration of its chemical properties, it expands the understanding of related chemical fields, provides strong support for the development of scientific theories, and promotes the continuous progress of chemical disciplines.

What are the physical properties of 2-Dihydroxybenzene-3, 5-Disulphonic Acid Disodium Salt Monohydrate

1% 2C2-dihydroxybenzene-3% 2C5-disulfonic acid disodium salt monohydrate, this physical property can be investigated. Its shape or crystalline state, usually white to off-white powder, uniform and fine.
In terms of solubility, it is easily soluble in water and can be easily dispersed in water. This property makes it easy to integrate in many aqueous systems. Its aqueous solution is often neutral or slightly acid-base. This acid-base state has a key impact in many reactions and application scenarios.
When it comes to stability, it is quite stable under normal environmental conditions. However, if exposed to high temperature, high humidity or strong oxidation and strong reduction, there is a risk of change. In case of hot topic, or cause decomposition, produce different products.
Its melting point also has a specific value, which is an indispensable basis for identification and purification. By accurately measuring the melting point, its purity can be judged.
And its spectral characteristics can also be described. In the infrared spectrum and ultraviolet spectrum, there are unique absorption peaks. With these absorption peaks, its structure can be analyzed in detail to clarify its chemical nature, and then lay the foundation for its application in chemical, pharmaceutical and other fields.

Is 2-Dihydroxybenzene-3, 5-Disulphonic Acid Disodium Salt Monohydrate Chemically Stable?

1% 2C2-dihydroxybenzene-3% 2C5-disulfonic acid disodium salt monohydrate, this is the name of the chemical substance. Whether its chemical properties are stable or not depends on many factors.
Under normal conditions, this compound has a certain stability. In its structure, the conjugated system of benzene ring gives it a certain degree of stability, so that it can maintain its own structure in the general environment. And the sodium salt form is relatively stable, and it is not easy to spontaneously produce chemical changes under common conditions.
However, the stability is not absolute. If there are specific chemical reagents in the environment, such as strong oxidizing agents or reducing agents, the chemical properties of this compound may change. Strong oxidizing agents may attack the hydroxyl or sulfonic acid groups on the benzene ring, causing it to undergo oxidation reactions and change its structure and properties.
Temperature and humidity also affect its stability. In high temperature environments, compounds may lose water, causing changes in the structure of monohydrates. If the humidity is extremely high, it may dissolve or undergo other physical changes due to moisture absorption, affecting chemical stability.
Light is also a factor that cannot be ignored. Long-term strong light exposure, or luminescent chemical reactions, cause molecular structures to change.
Overall, 1% 2C2-dihydroxybenzene-3% 2C5-disulfonic acid disodium salt monohydrate has certain stability under common environments and general operating conditions, but its chemical properties may change in special environments or when encountering specific chemical substances, which needs to be determined according to specific circumstances.

What is the production process of 2-Dihydroxybenzene-3, 5-Disulphonic Acid Disodium Salt Monohydrate?

1% 2C2-dihydroxybenzene-3% 2C5-disulfonic acid disodium salt monohydrate, which is an important chemical raw material in the field of fine chemicals, often plays a key role in the preparation of dyes, medicines and other special chemicals. The preparation process is complicated and exquisite, and specific processes and conditions need to be followed to ensure the quality and purity of the product.
When starting, catechol should be used as the main raw material. Catechol needs to be strictly screened to ensure that its purity is up to standard before it can be used for subsequent reactions. The choice of this solvent is also crucial when the catechol is incorporated into an appropriate amount of solvent, which needs to be able to effectively dissolve catechol and have no adverse interference in subsequent reactions. Usually, water, organic solvents or mixed solvents are used, depending on the specific reaction conditions and requirements.
After the catechol is fully dissolved, slowly add a sulfonating agent. The type and dosage of the sulfonating agent are directly related to the process of the reaction and the structure of the product. Generally used sulfonating agents are concentrated sulfuric acid or fuming sulfuric acid, whose function is to introduce sulfonic acid groups into the molecular structure of catechol to generate 1,2-dihydroxybenzene-3,5-disulfonic acid. In this process, temperature control is crucial, and it is necessary to maintain a specific range, neither too high to cause the reaction to run out of control, nor too low to slow down the reaction rate. The reaction temperature is usually set in a moderate range, which is monitored and adjusted by precise temperature control equipment.
After the sulfonation reaction is completed, the product needs to be further processed. At this stage, the reaction mixture needs to be neutralized to neutralize the excess acid with basic substances such as sodium hydroxide or sodium carbonate, so that the pH of the system reaches an appropriate level. The neutralization process needs to be carried out slowly and stirred continuously to ensure that the reaction is uniform and sufficient. After the neutralization is completed, a sodium salt of 1,2-dihydroxybenzene-3,5-disulfonic acid is formed.
Subsequently, the reaction product is separated and purified. Common methods include crystallization, filtration, washing and other steps. By controlling the appropriate crystallization conditions, such as temperature, concentration, stirring rate, etc., the crystallization of 1,2-dihydroxybenzene-3,5-disulfonate disodium salt is promoted. Then the crystal is separated from the mother liquor by filtration, and then the crystal is washed with an appropriate amount of solvent to remove impurities attached to the crystal surface, thereby improving the purity of the product.
Finally, because the product is monohydrate, the drying conditions need to be precisely controlled to allow the crystal to combine with the crystal water of one molecule, and finally obtain the finished product of 1% 2C2-dihydroxybenzene-3% 2C5-disulfonate disodium salt monohydrate. Throughout the preparation process, each step requires rigorous operation, with strict requirements on the quality of raw materials, reaction conditions, and equipment performance, etc., in order to produce high-quality target products.

2-Dihydroxybenzene-3, 5-Disulphonic Acid Disodium Salt Monohydrate What to pay attention to when using

1% 2C2-dihydroxybenzene-3% 2C5-disulfonic acid disodium salt monohydrate. This is a chemical substance and should be used with caution.
First of all, be sure to check its physical and chemical properties in detail before use. Know its solubility. If its solubility in water or specific solvents is not good, you need to choose the right solvent when using it to ensure uniform dispersion and sufficient reaction. Clarify its stability and pay attention to whether temperature, humidity, light and other factors will cause it to decompose or deteriorate. If the substance is sensitive to heat, it is easy to deactivate or produce side reactions when used in high temperature environments. Operating temperature must be controlled.
Furthermore, safety protection must not be forgotten. This substance may be corrosive and irritating. Be sure to wear suitable protective equipment when contacting it. For example, wear acid and alkali-resistant gloves to prevent it from touching the skin and causing burns; wear protective glasses to avoid splashing into the eyes and damaging the eyes. If used in a poorly ventilated place, because it may evaporate harmful gases, it is necessary to turn on the ventilation equipment or operate in the fume hood to prevent the inhalation of harmful gases from endangering health.
The operation process is also exquisite. Precise weighing and taking. According to experimental or production requirements, weigh an appropriate amount with a precise measuring tool to avoid improper dosage affecting the effect. And the operation should be stable to prevent it from spilling. If it is accidentally spilled, it should be cleaned in the correct way to avoid polluting the environment. At the same time, pay attention to its compatibility with other substances. If it needs to be mixed with other substances during use, first check whether adverse reactions will occur. If it is mixed rashly, it may cause a severe reaction, which could lead to a safety accident.