Disodium 3,3'-(4,5,6,7-Tetrabromo-3-Oxo-1,3-Dihydro-2-Benzofuran-1,1-Diyl)Bis(6-Hydroxybenzenesulfonate)

This is the chemical structure of disodium 3,3 '- (4,5,6,7-tetrabromo-3-oxo-1,3-dihydro-2-benzofuran-1,1-diyl) bis (6-hydroxybenzene sulfonate). Its chemical structure is quite complex.
This compound is formed by combining disodium ions with specific organic anions. The organic anion part is composed of 4,5,6,7-tetrabromo-3-oxo-1,3-dihydro-2-benzofuran-1,1-diyl as the core structure. In this core structure, four bromine atoms on the benzofuran ring are substituted at positions 4, 5, 6, and 7, and the 3 positions are carbonyl.
Two 6-hydroxybenzene sulfonate groups are connected on both sides of the core structure. In this group, there is a hydroxyl group at the 6 position on the benzene ring, and the benzene ring is also connected with a sulfonic acid group, which is combined with the disodium ion to make the whole compound ionic structure.
The uniqueness of this chemical structure endows the compound with specific chemical properties and potential applications, or shows its value in the fields of materials science, medicinal chemistry, etc. However, it needs to be studied in detail to clarify its characteristics and uses.

This substance is called bis (3,3 '- [ (4,5,6,7-tetrabromo-3-oxo-1,3-dihydro-2-benzofuran-1,1-diyl) bis (6-hydroxybenzenesulfonic acid) ] disodium salt, often referred to as tetrabromobisphenol S bis (hydroxyphenylsulfonic acid) disodium salt. Its main uses are as follows:
First, it plays a crucial role in the field of fabric flame retardancy. Fabrics are highly susceptible to fire threats in daily life, and this substance can endow fabrics with excellent flame retardant properties. When the fabric comes into contact with flames, it can quickly form a dense and stable carbonized layer on the surface of the fabric through a series of complex chemical reactions with its own special chemical structure. This carbonized layer is like a strong barrier, which can not only effectively block the contact between external oxygen and the fabric, prevent the continuous combustion, but also greatly reduce the temperature of the fabric, thus achieving the purpose of flame retardancy and greatly improving the safety of the fabric in various scenarios.
Second, it is also indispensable in the flame retardant aspect of plastics. Plastic products are widely used in many industries, but most plastics are flammable and pose safety hazards. After adding this substance, the flame retardant grade of plastics can be significantly improved. It can release active ingredients with flame retardant effect when the plastic is thermally decomposed. These ingredients can interfere with the chain reaction of free radicals during the combustion process of plastics, making it difficult to maintain combustion, thereby enhancing the stability of plastic products in high temperature environments, preventing fire accidents, and ensuring the safety of places where plastic products are used.
Third, the application in the field of electronic and electrical appliances cannot be ignored. Electronic and electrical products generate heat during operation, and if the heat dissipation is poor or the circuit fails, it is easy to cause fires. This substance can be used as a flame retardant additive for plastic materials used in electronic and electrical shells and internal parts to ensure the fire safety of electronic and electrical products under normal and abnormal conditions, provide reliable safety protection for electronic product users, and meet the strict standards and requirements of relevant industries for the flame retardant performance of electronic and electrical products.

If you hear this "Disodium 3,3 '- (4,5,6,7-Tetrabromo-3-Oxo-1, 3-Dihydro-2-Benzofuran-1, 1-Diyl) Bis (6-Hydroxybenzenesulfonate) ", it is a chemical substance, and there are many things to pay attention to when using it.
Bear the brunt and be safe. This substance may have certain chemical activity. When exposed, it is necessary to strictly follow safety procedures. Before starting the operation, read the product description and safety data sheet carefully to clarify its potential hazards. When operating, wear appropriate protective equipment, such as gloves, goggles, etc., to prevent the substance from coming into contact with the skin and eyes and causing harm to the body. If you come into contact accidentally, rinse with plenty of water quickly and seek medical attention according to the specific situation.
Furthermore, storage should not be underestimated. According to its physical and chemical properties, it should be stored in a suitable environment. It may need to be protected from heat and light, and placed in a dry and ventilated place to prevent it from deteriorating due to environmental factors, affecting the use effect, or even causing danger.
During use, accurate control of the dosage is the key. Improper dosage may cause the effect to not meet expectations, or cause other adverse consequences. It needs to be taken with precise measuring tools according to specific uses and reaction requirements to ensure that the dosage is correct.
In addition, its compatibility with other substances also needs to be carefully investigated. Mixing with certain chemicals may cause adverse reactions or even cause danger. Therefore, before use, it is necessary to understand its chemical properties and avoid contact with incompatible substances.
And the ventilation conditions of the place of use are also crucial. Good ventilation can disperse the harmful gases that may be generated in time, protect the health of the operator and create a safe working environment.
In short, the use of this "Disodium 3,3 '- (4,5,6,7-Tetrabromo-3-Oxo-1, 3-Dihydro-2-Benzofuran-1, 1-Diyl) Bis (6-Hydroxybenzenesulfonate) ", pay more attention to safety, storage, dosage, compatibility and ventilation, and must not be negligent to achieve the purpose of safe and effective use.

This is called disodium 3,3 '- (4,5,6,7-tetrabromo-3-oxo-1,3-dihydro-2-benzofuran-1,1-diyl) bis (6-hydroxybenzene sulfonate). Its physical and chemical properties are unique.
Looking at its properties, at room temperature, it is either solid or crystalline, white as snow, or yellowish, with fine texture. The solubility of this substance in water is quite considerable, and it can be dissolved in water to form a uniform and stable solution. This property is of great significance in many application scenarios.
When it comes to stability, under normal environmental conditions, its structure is stable and it is not easy to decompose by itself. In case of extreme temperature, humidity, or contact with specific chemical substances, chemical changes may occur. At high temperatures, chemical bonds within molecules may break due to energy excitation, causing structural variation and decomposition into other substances; in high humidity environments, or due to moisture absorption, the purity and properties are affected.
Its melting point and boiling point are also important physical and chemical properties. The melting point or in a specific temperature range, heated to this temperature, the substance gradually melts from solid to liquid. This process requires precise temperature control. Due to temperature deviation or affecting its subsequent application. The boiling point also has a specific value. At this temperature, the substance will change from liquid to gas.
In addition, the pH of this substance is within a specific range, or it is weakly acidic or weakly basic. This characteristic needs to be carefully considered in the application of certain chemical reactions and biological processes, because it may affect the reaction process and biological activity.
This disodium 3,3 '- (4,5,6,7-tetrabromo-3-oxo-1,3-dihydro-2-benzofuran-1,1-diyl) bis (6-hydroxybenzenesulfonate) has diverse physical and chemical properties, and it needs to be properly disposed of according to its characteristics in different fields of application.

To obtain disodium + 3,3 '- (4,5,6,7-tetrabromo-3-oxo-1,3-dihydro-2-benzofuran-1,1-diyl) bis (6-hydroxybenzene sulfonate), the method is as follows:
Prepare the refined raw materials, in which the relevant compounds need to be purified to maintain purity. In a clean reactor, place a specific starting material in an appropriate proportion. The ratio of this material needs to be accurate, which affects the purity and yield of the product.
Then, add an appropriate amount of catalyst. This catalyst should have the ability to catalyze efficiently, and it should not be mixed with the product. The temperature should be controlled within a suitable range, and this temperature needs to be finely adjusted according to the reaction characteristics. Either slow heating or sudden heating, depending on the reaction mechanism.
During the reaction process, a stirrer is often used to stir at a constant speed to fully blend the materials and promote the uniform progress of the reaction. Close observation, observe the characteristics of the reaction color change and gas escape to clarify the reaction process.
When the reaction is asymptotically completed, the product should be separated from the reaction system by suitable separation methods, such as filtration and extraction. After several washes, the chores are removed. After distillation, crystallization and other methods, the product is purified to obtain a high-purity target product, which is disodium + 3,3 '- (4,5,6,7-tetrabromo-3-oxo-1,3-dihydro-2-benzofuran-1,1-diyl) bis (6-hydroxybenzene sulfonate). Every step requires careful operation to obtain satisfactory results.

3%2C3%27-%EF%BC%884%2C5%2C6%2C7-%E5%9B%9B%E6%BA%B4-3+-%E6%B0%A7%E4%BB%A3-1%2C3+-%E4%BA%8C%E6%B0%A2-2+-%E8%8B%AF%E5%B9%B6%E5%91%8B%E5%96%83-1%2C1+-%E4%BA%8C%E5%9F%BA%EF%BC%89%E5%8F%8C%EF%BC%886+-%E7%BE%9F%BA%E8%8B%AF%E7%A3%BA%E9%85%B8%E9%92%A0%EF%BC%89, this is a representation of a complex chemical substance. However, it is difficult to know the whole picture and chemical properties based on this chemical formula.
To know the details, it is necessary to analyze its structure. This chemical formula contains specific atomic combinations and connections. Among them, structural units such as benzothiazole may have specific electron cloud distribution and spatial configuration. This structure may affect the stability and reactivity of molecules.
From the perspective of stability, the strength of its chemical bonds is related to the spatial arrangement. Multiple ring structures are associated with substituents or make molecules quite stable. In case of specific reagents or conditions, substituents can initiate reactions and change molecular structures.
Discuss the reactivity, benzene ring and heterocyclic part, because of its electron cloud properties, or prone to electrophilic substitution reaction. Substituents such as hydroxyl groups can affect the reaction check point and rate. At the same time, the specific structure on both sides of the molecule, or the specific coordination ability of the molecule, can form complexes with metal ions.
And because it contains specific functional groups, the solubility may be different in different solvents. If there are polar groups, the solubility may be high in polar solvents; conversely, if there are many non-polar parts, it is easier to dissolve in non-polar solvents.
However, this chemical formula is only used, and many chemical properties need to be confirmed by experimental measurement. For example, the molecular structure and vibration characteristics of functional groups can be detected by spectral analysis; thermal analysis can measure its thermal stability. Only by combining theory and experiment can the chemical properties of this substance be determined.

3%2C3%27-%EF%BC%884%2C5%2C6%2C7-%E5%9B%9B%E6%BA%B4-3 +-%E6%B0%A7%E4%BB%A3-1%2C3 +-%E4%BA%8C%E6%B0%A2-2 +-%E8%8B%AF%E5%B9%B6%E5%91%8B%E5%96%83-1%2C1 +-%E4%BA%8C%E5%9F%BA%EF%BC%89%E5%8F%8C%EF%BC%886 +-%E7%BE%9F%BA%E8%8B%AF%E7%A3%BA%E9%85%B8%E9%92%A0%EF%BC%89, this name is rare and rare, and it is rarely heard by ordinary people.
Its use is quite extensive, in the medical way, or it can be used as medicine, and by virtue of its characteristics, it can heal various diseases. Or because of its unique chemical properties, it can participate in the synthesis of delicate medicines, helping to eliminate diseases.
In the field of engineering, it also has its uses. It can be used as a special material, participating in the manufacture of precision instruments, with its special structure and properties, to ensure the stability and efficiency of the equipment. Or in the process of chemical synthesis, as a key reactant, to help produce materials with special properties to meet various industrial needs.
In the process of scientific research, it may be an important research object. By studying its properties and reactions, scientists can gain insight into the mysteries of matter, expand the boundaries of cognition, give birth to new principles and new technologies, and pave the way for scientific progress.
Although its name is uncommon, it has multiple uses. It has unique value in the fields of medicine, engineering and research, such as hidden treasures, waiting to be discovered by the discerning eye and used by the world.

In order to obtain 3%2C3%27-%EF%BC%884%2C5%2C6%2C7-%E5%9B%9B%E6%BA%B4-3 +-%E6%B0%A7%E4%BB%A3-1%2C3 +-%E4%BA%8C%E6%B0%A2-2 +-%E8%8B%AF%E5%B9%B6%E5%91%8B%E5%96%83-1%2C1 +-%E4%BA%8C%E5%9F%BA%EF%BC%89%E5%8F%8C%EF%BC%886 +-%E7%BE%9F%E5%9F%BA%E8%8B%AF%E7%A3%BA%E9%85%B8%E9%92%A0%EF%BC%89, the following ancient methods can be used.
Take an appropriate amount of raw materials first, and the ratio should be accurate. Choose the best quality 4,5,6,7-tetrabromo-3-oxo-1,3-diazo-2-indamidazole-1,1-dibasic and other substances, and then place them in exquisite utensils.
In a clean kettle, boil slowly with a slow fire, during which you need to carefully observe the change of heat and materials. If the heat is too strong, the material will be easy to burn, and if the heat is insufficient, the reaction will not be complete. After the material in the kettle is gradually melted, specific reagents are added in sequence to make the reaction blend with each other. During this process, it is necessary to continuously stir to make it evenly mixed to promote the smooth reaction.
After the reaction is completed, pour the obtained product into a special filter to remove its impurities and leave its essence. Then wash it with water many times until the residual filth is washed.
Repeat the washed product to another vessel, dry it at low temperature, so that the moisture is exhausted, and obtain pure 3%2C3%27-%EF%BC%884%2C5%2C6%2C7-%E5%9B%9B%E6%BA%B4-3 +-%E6%B0%A7%E4%BB%A3-1%2C3 +-%E4%BA%8C%E6%B0%A2-2 +-%E8%8B%AF%E5%B9%B6%E5%91%8B%E5%96%83-1%2C1 +-%E4%BA%8C%E5%9F%BA%EF%BC%89%E5%8F%8C%EF%BC%886 +-%E7%BE%9F%BA%E8%8B%AF%E7%A3%BA%E9%85%B8%E9%92%A0%EF%BC%89. The whole process requires the craftsman to be meticulous and abide by the steps to make a good product.

3%2C3%27-%EF%BC%884%2C5%2C6%2C7-%E5%9B%9B%E6%BA%B4-3+-%E6%B0%A7%E4%BB%A3-1%2C3+-%E4%BA%8C%E6%B0%A2-2+-%E8%8B%AF%E5%B9%B6%E5%91%8B%E5%96%83-1%2C1+-%E4%BA%8C%E5%9F%BA%EF%BC%89%E5%8F%8C%EF%BC%886+-%E7%BE%9F%BA%E8%8B%AF%E7%A3%BA%E9%85%B8%E9%92%A0%EF%BC%89 this medicine is quite complicated, when using it, you need to pay attention to many matters.
The first thing to know is its medicinal properties and uses. This medicine treats specific symptoms and has a unique effect on corresponding diseases. However, it should not be abused at will, so you must follow the doctor's instructions. Before using the medicine, the doctor must carefully check the patient's illness and constitution. If the patient is weak or has other diseases, you need to carefully weigh the dosage and timing of the medicine to prevent the medicine from being symptomatic and causing adverse reactions.
The dosage of the medicine is also very important. Do not increase or decrease the dosage by yourself, and take it precisely according to the amount set by the doctor. If there are too few, the drug will not be effective enough to achieve the expected effect; if there are too many, it may lead to the accumulation of toxicity and endanger the well-being of the patient. And the time interval of medication should also be paid attention to, and it should be taken on time according to the established rules to maintain the stable concentration of the drug in the body and exert the best drug effect.
Furthermore, close attention should be paid to the patient's physical reaction during the medication. If there are abnormal conditions such as dizziness, nausea, rash, etc., the drug should be stopped immediately and the doctor should be notified immediately. The doctor can adjust the medication plan or treat it accordingly according to the specific situation. At the same time, attention should also be paid to the diet. It should be light and avoid spicy, greasy, and cold things to avoid interaction with the drug and affect the efficacy of the drug.
In addition, the preservation of the drug should not be ignored. It should be placed in a cool, dry place, away from direct sunlight and humidity, to prevent the drug from deteriorating. In short, the matter of medication is related to the health of the patient, and both doctors and patients need to be treated with caution to ensure the safety and effectiveness of medication.

3% 2C3% 27- (4% 2C5% 2C6% 2C7-tetrahydro-3-oxo-1% 2C3-dinitrogen-2-naphthalimidazole-1% 2C1-diyl) bis (6-methoxynaphthalenesulfonate zinc) This substance has many safety risks. Its chemical structure is complex, or the risk of impurities caused by raw materials and reaction by-products affects the quality and safety.
From a toxicological point of view, it is potentially toxic to human cells and tissues, and may damage organs. Long-term exposure, ingestion or chronic health problems, such as liver and kidney damage. And the chemical is new or rare, and the relevant toxicological research and safety data are scarce, which makes it difficult to threat and risk assessment.
Its chemical properties or instability, under specific conditions or reactions, generate harmful substances, such as high temperature, light, and contact with specific substances. If stored and used improperly, it will increase safety hazards.
In addition, the environmental impact cannot be ignored. After entering the environment, its degradability, ecotoxicity are unknown, or it accumulates in the environment, endangering the ecosystem and affecting the survival and reproduction of organisms. In short, the use and handling of this substance must be cautious, comprehensively assess the risk, and take appropriate safety measures.