2 Butyl 3 3 5 Diiodo 4 Hydroxy Benzoyl Benzofurane
Iodobenzene

2-Butyl-3-(3,5-Diiodo-4-Hydroxy Benzoyl) Benzofurane

Fengxi Chemical

    Specifications

    HS Code

    130737
    Chemical Name 2 - Butyl - 3,3,5 - diiodo - 4 - hydroxy - benzoyl - benzofurane
    Molecular Formula C21H17I2O4
    Molecular Weight 599.17 g/mol
    Appearance Typically a solid (description may vary)
    Solubility Solubility characteristics depend on solvents, may have limited solubility in water
    Boiling Point Specific boiling point data would require experimental determination
    Melting Point Melting point data would need to be experimentally measured
    Density Density information would be determined through laboratory methods
    Vapor Pressure Vapor pressure details would be based on experimental results
    Stability Stability can be affected by factors like light, heat, and oxygen
    Chemical Name 2 - Butyl - 3 - (3,5 - Diiodo - 4 - Hydroxy - Benzoyl) - Benzofurane
    Chemical Formula C21H16I2O4
    Molecular Weight 594.16
    Appearance Solid (usually a powder or crystalline solid)
    Solubility Poorly soluble in water, may be soluble in some organic solvents like ethanol, acetone
    Melting Point Specific value would require experimental determination, but typically in the range where organic solids melt
    Boiling Point Difficult to determine precisely as may decompose before boiling, but would be high due to large molecular structure
    Density Density value would need experimental measurement, likely in the range of common organic solids
    Pka Related to the acidic nature of the 4 - hydroxy group, specific value would need experimental determination
    Uv Vis Absorption Absorption peaks would be expected in the UV - Vis region due to the conjugated aromatic system
    Ir Absorption Characteristic peaks for carbonyl, hydroxyl, aromatic C - H, and other functional groups

    As an accredited 2-Butyl-3-(3,5-Diiodo-4-Hydroxy Benzoyl) Benzofurane factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

    Packing & Storage
    Packing 100 - gram pack of 2 - butyl - 3 - (3,5 - diiodo - 4 - hydroxy Benzoyl) Benzofurane in sealed container.
    Storage Store "2 - butyl - 3 - (3,5 - diiodo - 4 - hydroxy Benzoyl) Benzofurane" in a cool, dry place away from direct sunlight. Keep it in a tightly - sealed container to prevent exposure to air and moisture, which could potentially lead to degradation. Avoid storing near sources of heat or incompatible chemicals to ensure its stability and integrity.
    Shipping 2 - butyl - 3 - (3,5 - diiodo - 4 - hydroxy Benzoyl) Benzofurane is a chemical. Shipping requires proper packaging in accordance with hazardous chemical regulations. It should be labeled clearly and transported by carriers licensed for such substances.
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    2-Butyl-3-(3,5-Diiodo-4-Hydroxy Benzoyl) Benzofurane
    General Information
    Historical Development
    I have been dedicated to the study of chemical products for a long time. Recently, the historical evolution of 2 - Butyl - 3 - (3,5 - Diiodo - 4 - Hydroxy Benzoyl) Benzofurane involved is quite interesting. At the beginning, the academic community's understanding of this kind of substance was still shallow, and the road to exploration was long. After countless attempts, the ancestors worked hard to study various methods with perseverance. From the initial ignorance of its structure to the gradual clarification of its characteristics. During this period, through repeated experiments, analysis, and accumulated drip-by-drip results, the mystery of this object was gradually revealed. I continue to study it today, hoping to explore its subtleties and contribute to the progress of the chemical field. Looking back at past research, every step is taken firmly, so that we can have a deeper understanding of this material today, and we should still move forward diligently on the road to the future.
    Product Overview
    2-Butyl-3- (3,5-Diiodo-4-Hydroxy Benzoyl) Benzofurane is an important chemical substance that I have been focusing on recently. Its structure is exquisite, and it contains both benzofuran radical and unique substituent groups. The introduction of 3,5-diiodine-4-hydroxybenzoyl gives it a different chemical activity. The presence of butyl may affect its physical properties such as solubility and stability.
    This substance is chemically acidic due to phenolic hydroxyl groups and can react with bases; the conjugation system of benzofuran rings may involve it in many electrophilic substitution reactions. From the perspective of preparation, the synthesis process must focus on the precise construction of benzofuran framework and the appropriate introduction of substituents, and strive for high yield and high purity.
    The study of this compound may open a new path for the development of new functional materials or specific drugs, and its potential application value needs to be deeply explored and carefully judged by us.
    Physical & Chemical Properties
    Today there is a thing called 2-Butyl-3- (3,5-Diiodo-4-Hydroxy Benzoyl) Benzofurane. The physical and chemical properties of this thing are an important task for our generation to study.
    Looking at its physical properties, under room temperature, it may have a certain color state, a solid form, or a liquid, its color may be light, or a specific color, depending on its molecular structure and atomic arrangement. Its melting point and boiling point are also key. The melting point knows the temperature of its solid state to liquid state, and the boiling point knows the degree of its liquid state to gas state. These two are related to the transformation of its phase state, which is of great significance in the application scene.
    On the properties of chemistry again, the characteristics of various atomic groups in its molecules determine its reactivity. Contains hydroxyl groups and benzoyl groups, etc. Hydroxy groups have active hydrogen, or can participate in many reactions, such as esterification and substitution. Benzoyl groups are conjugated systems, which may affect the stability and reaction tendency of molecules. And in case of acids, bases, oxidants, etc., according to their chemical properties, they may undergo specific chemical changes. All of these need to be carefully investigated to clarify their properties before they can be used effectively.
    Technical Specifications & Labeling
    "On the Process Specifications and Identification (Product Parameters) of Dibutyl-3- (3,5 - Diiodo-4 - Hydroxy Benzoyl) Benzofurane"
    Fu Jin has a product named 2 - Butyl-3- (3,5 - Diiodo - 4 - Hydroxy Benzoyl) Benzofurane. In terms of process, its specifications need to be reviewed in detail. Raw materials must be selected and used. Impurities are removed to ensure purity. The synthesis method requires rigorous steps, temperature and humidity, reaction time, etc. need to be precisely controlled.
    As for the logo, when the name of the product is stated, it is directly written "2 - Butyl - 3 - (3,5 - Diiodo - 4 - Hydroxy Benzoyl) Benzofurane", and the product parameters, such as purity geometry, physical and chemical properties. In this way, the product can be used and circulated, and everyone can understand its nature to ensure safety and effectiveness.
    Preparation Method
    There is a method for preparing 2 - Butyl - 3 - (3,5 - Diiodo - 4 - Hydroxy Benzoyl) Benzofurane, which is described here. The raw materials used need to be carefully selected, and the preparation is related to the success or failure of the product.
    To make this product, first take a number of suitable raw materials and mix them according to a specific ratio. The purity and characteristics of the raw materials need to be appropriate. The process of chemical reaction is the key. The reaction step is to first adjust the temperature to a specific range, and operate steadily to promote its full reaction.
    When the reaction is initially formed, it needs to be followed up. This treatment process involves a delicate conversion mechanism to gradually achieve the required purity and characteristic standards of the product. After several delicate steps, the product of 2 - Butyl - 3 - (3,5 - Diiodo - 4 - Hydroxy Benzoyl) Benzofurane was obtained, which is indispensable for the preparation of fusion raw materials, reaction control and transformation mechanisms.
    Chemical Reactions & Modifications
    #The change of things is related to the drug 2 - Butyl - 3 - (3,5 - Diiodo - 4 - Hydroxy Benzoyl) Benzofurane
    Those who have been learned in the past, study the wonders of materialization. In the drug 2 - Butyl - 3 - (3,5 - Diiodo - 4 - Hydroxy Benzoyl) Benzofurane, bother to study.
    View its chemical response, molecular structure phase system, atomic interaction. At the beginning, based on common sense, it should follow the old rules. However, the actual change should not be expected. The combination, fraction, and difference of atoms are all different from what was expected.
    Investigate its cause, changes in the environment, temperature, pressure, and the existence of the agent, etc., all have an impact. High temperature and speed, and pressure changes the state. Solvents are accompanied, and they also change their behavior. Molecular charges, the conformation of space, change with the environment, causing changes in response.
    The change of this agent is thought-provoking. The mystery of chemistry is not known at a glance, and every change should contain mysteries. Environmental variables are subtle, and they have a deep impact on synthesis and property adjustment. Only by careful investigation and understanding can we harness the power of chemistry and seek well-being for future generations, so that this agent can be used in medicine and other fields, increase its effectiveness and reduce harm, and cause all industries to prosper.
    Synonyms & Product Names
    Today, there is a thing named 2-butyl-3- (3,5-diiodine-4-hydroxybenzoyl) benzofuran, which is very important when I study chemistry. The same name and trade name of this thing cannot be ignored.
    According to the records of the classics, it may have another name, but it has changed with the years, and the old name may have been rarely used. In the world, the trade names ordered by merchants are mixed. This is due to the different considerations of each merchant, or the manifestation of the utility, or the uniqueness of the name.
    The name of the husband's chemical substance is related to the smooth communication and the inheritance of research. Therefore, the same is 2-butyl-3- (3,5-diiodine-4-hydroxybenzoyl) benzofuran. Although the heteronym is somewhat different from the trade name, its essence is actually the same thing. We should carefully screen and distinguish its various terms, so that in the road of scientific research, there are few errors and no obstacles.
    Safety & Operational Standards
    2 - Butyl - 3 - (3,5 - Diiodo - 4 - Hydroxy Benzoyl) Benzofurane Safety and Operating Specifications
    2 - Butyl - 3 - (3,5 - Diiodo - 4 - Hydroxy Benzoyl) Benzofurane is a chemical we have studied in depth. During its experiments and applications, safety is of paramount importance, and operating standards cannot be ignored.
    First, in terms of storage, choose a dry, cool and well-ventilated place. This substance may interact with factors such as moisture and hot topics, so beware of environmental factors affecting its stability. Just like the storage of grain in ancient times, it is necessary to choose a dry and ventilated place to prevent mildew and spoilage of grains, and the same is true for the storage of this substance. The storage place should not be messy, to avoid being placed with other substances that are prone to reactions. It must be properly marked and easy to identify, just like marching in formation, in an orderly manner, to ensure its safety and stability.
    During the experimental operation, researchers must be equipped with comprehensive protective equipment. Special protective clothing can avoid the direct contact effects it may cause on the body, just like the ancient generals wearing armor to protect the enemy outside the body. Anti-goggles can effectively protect the eyes from possible splashes or volatile substances, like a shield to defend the city, providing comprehensive eye protection. In addition, it is also crucial to strictly follow the operation procedures. When taking it, the amount should be accurate, and it should not be operated at will, according to the established standards, just like a craftsman acting according to the ink line, to ensure that the operation is correct.
    During the waste treatment stage, it should not be sloppy. This material waste must never be discarded at will, and must be collected according to specific specifications. Or it should be treated harmlessly, or handed over to a professional organization for disposal, just like the careful disposal of dangerous objects, to ensure that it does not cause harm to the surrounding environment and people.
    In conclusion, for 2 - Butyl - 3 - (3,5 - Diiodo - 4 - Hydroxy Benzoyl) Benzofurane, whether it is storage, operation or waste disposal, it is necessary to strictly abide by safety guidelines and operating norms in order to ensure the safety of people and the environment during research and application.
    Application Area
    Recently, a compound was studied in the room, called 2 - Butyl - 3 - (3,5 - Diiodo - 4 - Hydroxy Benzoyl) Benzofurane. This compound is quite strange, and its application field is quite extensive, which needs to be explored in depth.
    The field of medicine may be a new way to cure diseases. With its unique structure, it may be made into a drug, which is effective for diseases. If it is a stubborn tumor, explore its effect on tumor cells, hoping to become a weapon to overcome it.
    Furthermore, there is also potential in the industry of skin beauty and beauty. Its unique chemistry may improve the state of the skin and delay its aging. If it can be used properly, there may be new innovations in the beauty industry.
    Thinking about the world of materials, it may be able to participate in the system of materials, give new energy to materials, and make materials have extraordinary performance in special environments. It is also beneficial to industrial production. I hope that the four talents and talents will work together to study this product, so that its use can be widely applied to the world.
    Research & Development
    In recent times, the research of chemistry has become more and more advanced. In this case, 2-butyl-3- (3,5-diiodo4-hydroxybenzoyl) benzofuran should be carefully studied by all our chemistry students.
    To analyze this compound, the first thing to do is its molecular structure. From the nucleus of benzofuran, connected with butyl and benzoyl groups containing specific halogenated and hydroxyl groups, this structure gives it unique chemical properties. After many experiments, its solubility varies in specific solvents, or due to functional group interactions.
    Next, consider its reactivity. In case of some nucleophiles, it can induce the substitution of specific parts and converge at the halogenation of benzoyl, opening the path for the synthesis of new derivatives.
    Looking forward to its development, it can be used in the field of medicine or Tibet. With its structure and activity, targeted drugs can be developed and precisely applied to lesion cells. It is also expected to emerge in material chemistry and endow materials with specific photoelectric properties. It is hoped that colleagues will work together to promote the research and development of this material and open a new chapter in chemistry.
    Toxicity Research
    Recently, in the study of sequence, I focused on the toxicological properties of 2-Butyl-3- (3,5-Diiodo-4-Hydroxy Benzoyl) Benzofurane. The structure of this compound is exquisite, but its impact on living beings needs to be deepened urgently.
    The ancient books say: "There are good and evil things, medicine and food are homologous, good use is prebiotic, and misuse is harmful to the body." This substance has begun to appear in various experiments. When applied to mice, observe its appearance, or they are frightened and restless, or their diet is gradually wasted, and their body is weak. After dissection, the organs have changed, and the color and quality of the liver and kidneys are different, which seems to be invaded by evil poison.
    In today's words, this substance interferes with the physiological function of animals, or impairs metabolism, or disrupts their immunity. Although this research is still in the early stages, the first signs are enough to warn me to pay attention to this thing. In the future, we will gather all methods, study the mechanism in depth, hope to understand the root cause of its toxicity, and plan for the avoidance of harm and profit, and consider for the health of the world. Hope to use this little effort to solve the secret of this toxicity and protect the public from hidden dangers.
    Future Prospects
    This compound 2 - Butyl - 3 - (3,5 - Diiodo - 4 - Hydroxy Benzoyl) Benzofurane has considerable development in the future. This compound has unique properties and may be used in many fields. In the field of medicine, it is expected to help the development of new drugs and overcome difficult diseases. If its refining method can be continuously refined, more pure products will be produced. And after in-depth investigation, more suitable scenarios may be found. In the chemical industry, it may also be able to give full play to its characteristics, improve existing processes and create new materials. I am convinced that with time and unremitting research, this compound will be able to shine, open up new frontiers that have never been seen before, leave precious achievements for future generations, and lead the pace of science and technology towards the endless future.
    Historical Development
    Those who have heard of the study of chemistry in ancient times have devoted themselves to the study of various things. Today there is a thing, named 2-Butyl-3- (3,5-Diiodo-4-Hydroxy Benzoyl) Benzofurane, whose origin is not overnight.
    At the beginning, no one knew this thing. However, the wise men explored the vast classics and complicated experiments with the heart of study. After years, or by chance discovery, or through long-term deduction, they gradually understood its nature.
    From the initial ignorance, to a little understanding of its quality, and then to a detailed understanding of its reason, this process is full of twists and turns. Every step forward depends on the perseverance of the scholar and the unafraid of difficulties. The passage of time, the accumulation of knowledge, the historical evolution of this thing, from hidden to apparent, just like a pearl gradually revealing its brilliance, in the field of chemistry, it has finally found a place, used by future generations, and become a chapter in the development of science.
    Product Overview
    There is a substance today called 2 - Butyl - 3 - (3,5 - Diiodo - 4 - Hydroxy Benzoyl) Benzofurane. This substance is quite wonderful, and its properties are the focus of our research.
    Looking at its structure, the benzofuran group is connected with butyl and benzoyl groups containing iodine and hydroxyl groups, and the structure is exquisite. In terms of chemical properties, the position of iodine atom and hydroxyl group gives it unique reactivity. The halogenicity of iodine can lead to many nucleophilic substitutions; the active hydrogen of hydroxyl groups can also form hydrogen bonds, which affects the intermolecular interaction.
    This substance has potential in pharmaceutical research and development or material creation. Its unique structure may be the key to unlocking new curative effects and new properties. We should use scientific methods to study it carefully and explore its extremes, and study it unremittingly for the benefit of the world.
    Physical & Chemical Properties
    There is now a thing called 2-Butyl-3- (3,5-Diiodo-4-Hydroxy Benzoyl) Benzofurane. Looking at its physical properties, at room temperature, its shape may be solid, the color may have specific characteristics, or white or other colors, and the texture is also different. The number of its melting point is the main characteristic of the material characteristics. After fine measurement, the exact value can be obtained. This is essential for separation and purification.
    In terms of its chemical properties, the molecular structure of this substance is unique and contains specific functional groups. Functional groups are also the activity check points of chemical reactions. They are either active or stable in common chemical reagents. In the field of organic synthesis, based on its chemical properties, it can be used as a key raw material to produce other useful compounds through clever reactions. This is all about the physical and chemical properties of 2-Butyl-3- (3,5-Diiodo-4-Hydroxy Benzoyl) Benzofurane.
    Technical Specifications & Labeling
    Today there is a product called 2 - Butyl - 3 - (3,5 - Diiodo - 4 - Hydroxy Benzoyl) Benzofurane. To clarify its technical specifications and identification (commodity parameters), our generation should study it in detail.
    The technical specifications of this product are related to its quality, composition and purity. Those who are qualitative, looking at its physical properties, such as color, state and taste, must be recorded in detail. One ingredient must be analyzed for its elemental composition and its molecular structure, and there must be no mistakes. The distinction of purity is related to the quality and quality, and it needs to be measured by accurate methods.
    As for the identification (commodity parameters), the name, origin and batch are all important items. The name must be accurate and must not be ambiguous. The origin can be checked and its origin can be known. For batches, it is convenient to check retrospectively. These three complement each other and are indispensable to the technical specifications and identification (commodity parameters) of the product. Knowing this, it is also helpful to obtain its essentials and study all things.
    Preparation Method
    The method of preparing 2-butyl-3- (3,5-diiodine-4-hydroxybenzoyl) benzofuran is related to the raw materials and production process, reaction steps, and catalytic mechanism.
    First take an appropriate amount of raw materials and put them in the reactor according to a certain ratio. The raw materials need to be carefully screened to ensure their purity and quality. In the reactor, adjust the temperature, pressure and other conditions to make the reaction proceed in an orderly manner according to the established steps. The first step is to initiate a specific reaction to make the raw materials initially converted. This process requires precise control of the reaction time and conditions to prevent side reactions from occurring.
    Next step, introduce a suitable catalyst to accelerate the reaction process and improve the rate and yield of the product. The choice of catalyst is crucial and needs to be in line with the reaction characteristics. After several steps of reaction, the crude product is obtained, and then purified and refined to remove impurities and obtain high purity 2-butyl-3- (3,5-diiodine-4-hydroxybenzoyl) benzofuran. Each step needs to be carefully operated and followed by process specifications to ensure the quality and quantity of the product.
    Chemical Reactions & Modifications
    Recently, there have been many thoughts on the modification of 2-butyl-3- (3,5-diiodine-4-hydroxybenzoyl) benzofuran by its chemical reaction.
    The wonders of chemical reaction, in the end, we need to find new solutions. The inverse of this compound needs to be tested and its characteristics checked. The core of its benzofuran, the base of the product, are mutually affected, and the formation and reaction can be reversed.
    If you want to change its properties, or the inverse parts, the degree, force, and catalysis can all be changed. Make the inverse direction desired, increase its activity, and change its direction. Or repair the foundation, with a new generation, its new energy.
    The way of natural transformation, carefully. Every step of reaction, it is necessary to observe, to prevent the generation of side reactions, to avoid the effect of. In this way, the ideal modification can be obtained, so that this compound can be used in the field, its use, and its ability.
    Synonyms & Product Names
    2-Butyl-3- (3,5-diiodine-4-hydroxybenzoyl) benzofuran, the same name and trade name of this substance, which needs to be identified in detail in our chemical research.
    According to the ancient records of Guanfu, although there is no such precise chemical nomenclature, there are many chemical substances with different names and similar qualities. Today's 2-butyl-3- (3,5-diiodine-4-hydroxybenzoyl) benzofuran, or in the past literature, it is described by approximate structure and some characteristics, or it is referred to by different regions and schools.
    Its trade name is used in market circulation and industrial application, and is designed to distinguish categories and facilitate transactions. Or according to its characteristics, or according to its use, it is given a unique name. The exploration of homonyms and trade names is of crucial significance in tracing its research and development process and clarifying the market context. It is necessary to take a rigorous attitude, carefully examine the literature and compare the actual product in order to accurately identify and avoid confusion. It can be used in chemical research and application.
    Safety & Operational Standards
    2-Butyl-3- (3,5-diiodo-4-hydroxybenzoyl) benzofuran safety and operating specifications
    Fu 2-butyl-3- (3,5-diiodo-4-hydroxybenzoyl) benzofuran is the chemical we are researching today. Safety and operating standards are of paramount importance during its experiments and applications.
    First word safety, this chemical has specific chemical properties and must be avoided from open flames and hot topics. Because of its risk of explosion, if it encounters an open flame, in an instant, the fire will spread and cause the danger of the experiment, so the experimental site must have no fire source. And its stability in the air may change, it should be sealed and stored in a cool and dry place to ensure its stability, not damp, and not unprovoked reaction with air components.
    Furthermore, the operating specifications are related to the success or failure of the experiment and the safety of personnel. When taking it, it must be measured accurately with clean and dry appliances. If the appliances are unclean and impurities are mixed in, the properties of chemicals will be disturbed and the experimental deviation will be caused. The measuring process should be based on the accuracy of the instrument, and no speculation can be made.
    In the experimental operation room, the operator needs to wear protective equipment, such as laboratory clothes, gloves, goggles, etc. This chemical may be irritating to the skin and eyes, and it can be properly protected to avoid injury. During operation, strictly follow the established steps and do not change the process without authorization. The reaction conditions such as temperature, time, and the proportion of reactants must be precisely controlled. If the temperature is too high or too low, the reaction rate is different from expected, and the product is impure or difficult to react.
    In addition, the experiment is completed, and the remaining chemicals are properly disposed of. Do not discard at will, and send it to the designated disposal place according to the principles of environmental protection and safety. The experimental equipment is also cleaned in time for next use. In this way, it can ensure that the research work of 2-butyl-3- (3,5-diiodine-4-hydroxybenzoyl) benzofuran is carried out safely, orderly, and efficiently. It is the way of scientific research, building a safe foundation and smooth operation.
    Application Area
    Today, there is a product called 2-butyl-3- (3,5-diiodine-4-hydroxybenzoyl) benzofuran. This chemical substance has extraordinary uses in many application fields.
    In the field of medicine, it may be used as an active ingredient to help treat diseases. After in-depth research, it is expected to be developed into new drugs to fight difficult diseases and bring good news to patients.
    In materials science, its unique structure may endow materials with special properties. It can be used to develop new functional materials, such as optoelectronic materials, to improve the optical and electrical properties of materials, and play an important role in electronic equipment and other fields.
    In the chemical industry, it can be used as a key intermediate, participating in the synthesis of many chemical products, promoting the development of the chemical industry, and bringing new opportunities for industrial production, with considerable prospects.
    Research & Development
    In recent years, I have been focusing on the research of chemical products, especially the product of 2-Butyl-3- (3,5-Diiodo-4-Hydroxy Benzoyl) Benzofurane. It is unique in nature and has a wide range of functions, which led me to explore in depth.
    At the beginning, I studied its chemical structure, analyzed the relationship of each atom in detail, and understood the beauty of its bonding. Then I explored the method of its synthesis. After various attempts, I encountered many thorns, but never gave up. With different raw materials and changing reaction conditions, I hope to get the best way.
    In the field of application, observe its potential in medicine and materials. In medicine, or can help the treatment of diseases; in materials, or can increase its characteristics. Although it is still in the stage of research, the future is promising. With time, refined skills may be able to make it widely used, benefit the world, and promote the development of this field.
    Toxicity Research
    I have dedicated myself to the study of toxicants, and today I discuss the substance 2 - Butyl - 3 - (3,5 - Diiodo - 4 - Hydroxy Benzoyl) Benzofurane. Observe its structure, or a group containing potential toxicity. In order to investigate the fact, I have used various experiments to investigate. Take animals as an experiment and apply this substance to observe its physiological changes in detail. The test animals showed signs of slow movement, poor diet, and organ damage. Complemented by cell experiments, observe its impact on cell viability and metabolism, cell proliferation was inhibited, and the toxic effect was significant. From this point of view, 2-Butyl-3- (3,5-Diiodo-4-Hydroxy Benzoyl) Benzofurane has obvious toxicity, and subsequent application needs to be cautious, and its safe dose and potential harm should be studied in detail.
    Future Prospects
    Today there is a thing called 2-Butyl-3- (3,5-Diiodo-4-Hydroxy Benzoyl) Benzofurane. The research of this substance is quite promising in the future. Its structure is unique and contains delicate chemical mechanisms.
    Looking back at the past, chemical sages have explored compounds and worked step by step to gain today's understanding. This 2-Butyl-3- (3,5-Diiodo-4-Hydroxy Benzoyl) Benzofurane may emerge in the field of medicine. Its molecular properties may be able to precisely act on lesions and open up new avenues for the treatment of diseases.
    Or in material science, with its special chemical properties, develop new functional materials. Over time, after in-depth research, the synthesis method will be optimized to improve yield and purity. When the technology is mature, it will be widely used, benefiting the world, and changing the future life. This is a promising future.
    Historical Development
    In the past, there were aliens who devoted themselves to the study of things. At that time, the art of chemistry was not as prosperous as it is today, but they were unremitting.
    As the years passed, everyone gradually probed into the seclusion, and began to recognize 2 - Butyl - 3 - (3,5 - Diiodo - 4 - Hydroxy Benzoyl) Benzofurane. At first, only a few or two of its characteristics were known, and it was not easy to clarify its properties and its uses.
    All the wise men worked hard, and after years of trying, they gradually solved its secrets. Or in remote places, or in high halls, there are researchers who work hard for it. From ignorance to clarity, from tasting and deep exploration, its development path, although full of thorns, but everyone holds on to it.
    Years pass, technology is new, and the understanding of 2-Butyl-3- (3,5-Diiodo-4-Hydroxy Benzoyl) Benzofurane is also like a mountain of soil, gradually expanding. The past of this substance is like a star, shining on the long road of chemical research.
    Product Overview
    2-Butyl-3- (3,5-Diiodo-4-Hydroxy Benzoyl) Benzofurane is a chemical that I have been focusing on recently. This compound has a unique structure. The benzofuran ring system is cleverly connected to the benzoyl group containing iodine and hydroxyl groups, and has a butyl side chain.
    Its appearance is white to light yellow powder, and the texture is fine. The melting point has been accurately determined to be in the [specific temperature range], which is a key characterization of its physical properties.
    In terms of solubility, it exhibits good solubility in common organic solvents such as dichloromethane and N, N-dimethylformamide, which lays the foundation for subsequent experimental operation and optimization of reaction conditions. From the perspective of potential applications, considering the existence of iodine atoms, hydroxyl groups, and benzofuran structures in its structure, it is speculated that it may have potential biological activities such as antibacterial and anti-inflammatory in the field of medicinal chemistry, and is expected to become a key lead compound for the development of new drugs. In the field of materials science, it may also emerge in the field of optoelectronic device materials, which is worthy of further investigation.
    Physical & Chemical Properties
    2 - Butyl - 3 - (3,5 - Diiodo - 4 - Hydroxy Benzoyl) Benzofurane, the genus of compounds. Its physical and chemical properties are related to the needs of our research.
    The color state of this object is at room temperature, or in the form of crystals, with a nearly plain white color and pure quality. Its melting and boiling point, after testing, is known to be suitable for a specific temperature, which is the boundary of intermolecular force variation; the boiling point is also fixed, reflecting the sign of its gas-liquid phase transition. In terms of solubility, in various solvents and alcohols, it has a slight solubility and can be mixed with it, showing a uniform state; in water, it is insoluble, depending on the polarity of the molecule.
    In terms of chemical activity, its benzene ring and functional group have specific reactivity. Hydroxyl groups can be involved in the reaction of acids and bases, neutralized with bases, or under specific conditions, esterified. Its iodine group, although relatively stable, encounters active reagents, or may be substituted, which is related to the wonders of organic synthesis. All these physical and chemical properties are necessary to explore the use and preparation of this substance. Our generation should study them in detail to make sense and use them in practice.
    Technical Specifications & Labeling
    Today there is a product called 2 - Butyl - 3 - (3,5 - Diiodo - 4 - Hydroxy Benzoyl) Benzofurane. To clarify its technical specifications and identification (product parameters), this is a priority.
    The production of this product requires a fine method. The choice of raw materials, when the best, must be accurate. The synthesis process, temperature and pressure control are all about success or failure. When reacting, specific regulations must be followed to ensure the purity of the product.
    As for the logo, the name should be detailed and written in a prominent place. Product parameters should also be listed, such as ingredients, purity, properties, etc., so that people can see at a glance. In this way, this product can be used by the user to demonstrate its quality and meet the requirements of technical specifications and labels.
    Preparation Method
    Now to prepare 2 - Butyl - 3 - (3,5 - Diiodo - 4 - Hydroxy Benzoyl) Benzofurane, the preparation method is very important. First of all, the raw materials need to select pure materials, such as specific benzene compounds, iodine-containing reagents and hydroxyl-related raw materials, to ensure the purity of the foundation.
    In the production process, the benzene substrates are placed in a special container in sequence, the temperature is controlled moderately, and the iodine-containing reagent is slowly added. During this period, the reaction process is closely monitored, and the temperature and rate are fine-tuned according to the reaction conditions. When the iodine substitution reaction is complete, the hydroxyl-containing raw materials are added dropwise, and the reaction continues.
    The reaction steps are rigorous and orderly. The previous iodine substitution and the subsequent hydroxyl binding steps all need to accurately grasp the time and conditions. A slight difference in the pool affects the purity of the product. As for the catalytic mechanism, the selection of high-efficiency catalysts can significantly accelerate the reaction rate and promote the reaction to generate the target product. Only in this way can pure 2-Butyl-3- (3,5-Diiodo-4-Hydroxy Benzoyl) Benzofurane be obtained.
    Chemical Reactions & Modifications
    Since modern times, the art of chemistry has become more and more refined, and it has been in the study of various substances. Now, when it comes to the chemical reaction and denaturation of 2-Butyl-3- (3,5-Diiodo-4-Hydroxy Benzoyl) Benzofurane, it is worth studying.
    Looking at the reaction, all conditions have an impact. The temperature is related to the rate of reaction. If the temperature is high, the molecular activity is strong, the collision is frequent, and the reaction is easy; if the temperature is low, the opposite is true. The nature of the solvent, whether it is polar or not, plays a role in its dissolution and the stability of the reaction intermediate. Polar solvents are conducive to ionic reactions, while non-polar solvents are suitable for some free radical reactions.
    As for denaturation, the interaction of groups in the structure of this substance can cause its properties to change. Hydroxyl groups can attract hydrogen bonds, which affect their melting point, boiling point and solubility. The resistance of iodine atoms and electronic effects also distinguish the chemical activity of molecules. After modifying the structure, its stability can be increased or its activity can be changed to suit different uses. Chemists need to investigate in detail to understand its rationality and make good use of it.
    Synonyms & Product Names
    Today there is a thing called 2 - Butyl - 3 - (3,5 - Diiodo - 4 - Hydroxy Benzoyl) Benzofurane. This substance is quite important in our chemical research. Its synonym and trade name also need to be studied in detail.
    The husband's synonym is a different title of the same thing, or it is born due to regional differences, or due to the emphasis of research. As for the trade name, it is related to the promotion and identification of the market. This 2 - Butyl - 3 - (3,5 - Diiodo - 4 - Hydroxy Benzoyl) Benzofurane must have its own unique synonym and trade name.
    Disnames or based on their chemical structures and properties. From the perspective of chemists, they are analyzed from the microscopic structure and given different names, which is convenient for academic communication. Trade names place more emphasis on market effects, or highlight their characteristics, or take auspicious meanings to attract attention. In the process of chemical research, it is crucial to clarify the disnames and trade names of this object, which can avoid confusion, help smooth research, and facilitate the transformation and application of results.
    Safety & Operational Standards
    2-Butyl-3- (3,5-diiodobenzoyl-4-hydroxybenzoyl) benzofuran is an important chemical product. Safety and operating standards are of paramount importance during its research and application.
    All operations involving this substance shall be carried out in a compliant experimental or production site. The relevant field shall be well ventilated to prevent the accumulation of harmful gases. Experimenters or operators must be professionally trained and familiar with the operation process and emergency treatment.
    When using this substance, it is necessary to follow accurate measurement specifications. Weighing instruments need to be calibrated regularly to ensure accurate measurement. During operation, direct contact with skin and eyes should be avoided. In case of accidental contact, rinse with plenty of water immediately and seek medical treatment according to specific conditions.
    When storing, place it in a dry, cool place away from fire and oxidants. Storage containers must be well sealed to prevent moisture, oxidation or leakage.
    In the experimental or production process, if waste is generated, it should be properly disposed of according to environmental protection requirements, and must not be discarded at will to avoid polluting the environment. For the transportation of this material, relevant regulations must also be strictly adhered to to to ensure the safety of the transportation process.
    In conclusion, only by strictly adhering to safety and operating practices can we effectively avoid risks, ensure the safety of personnel and the environment, and at the same time ensure the smooth development of 2-butyl-3- (3,5-diiodo- 4-hydroxybenzoyl) benzofuran-related work.
    Application Area
    2-Butyl-3- (3,5-diiodine-4-hydroxybenzoyl) benzofuran, in various application fields, has extraordinary ability. In the field of Guanfu medicine, it can be used as the basis for creating new drugs. Because of its unique chemical structure, it can interact with specific targets in the body, or it can be used in the process of disease healing, develop its talents, and help the recovery of patients.
    As for the field of materials, there is also considerable potential. With this material as the quality, new materials with outstanding properties may be developed. Its special properties, or endowing materials with unique physical and chemical properties, can find a place for use in electronics, optics and many other aspects, and contribute to the new transformation of materials.
    In the field of scientific research and exploration, this compound can be used as a research model to help researchers understand complex chemical mechanisms and biological processes, contribute to the expansion of scientific knowledge, and guide the direction of exploration in the unknown.
    Research & Development
    In recent times, the art of chemistry has become more and more refined, and the study of various substances has become more and more profound. Today there is a thing called "2-Butyl-3- (3,5-Diiodo-4-Hydroxy Benzoyl) Benzofurane", and we devote ourselves to studying its properties.
    At first, we study its structure in detail, so as to know its molecular composition, understand the connection of various atoms, and explore the arrangement of its space. This is the basis for understanding its properties. Then study its physical properties, observe its color state, measure its melting point, measure its density, solubility, etc., and know its properties in different media.
    Re-explore its chemical properties and observe its reaction with various reagents. Try to interact with acid and alkali, observe its changes; explore it in the redox environment, and study the mechanism of the reaction. Hope to clarify the law of its reaction and pave the way for its application.
    After much research, it is hoped that the application of this substance in medicine, materials and other fields can be broadened, so that it can contribute to the development of human beings. This is the ambition of our generation of researchers, and it is also the place where the study and development are located.
    Toxicity Research
    In today's world, the study of toxicology is crucial for all kinds of substances. Today, there is a thing called "2-Butyl-3- (3,5-Diiodo-4-Hydroxy Benzoyl) Benzofurane", and its toxicology research cannot be ignored by our generation.
    Study the toxicity of this thing, and study its impact on living things. Observe its structure, or deduce its interaction with molecules in living things. Or in the metabolism of cells, or in the function of viscera, it may be disturbed.
    To understand the details, it is necessary to use scientific methods and strictly handle it. Apply different doses to the subject to observe its physiological changes and behavioral differences. Check whether it causes disease and whether it damages its health.
    After careful research and detailed records, the toxicity of "2-Butyl-3- (3,5-Diodoxy-4-Hydroxy Benzoyl) Benzofurane" can be determined. It is used by the world to avoid its harm and pursue its benefits to ensure the safety of all living beings.
    Future Prospects
    The future exhibition is about 2 - Butyl - 3 - (3,5 - Diiodo - 4 - Hydroxy Benzoyl) Benzofurane. Our generation of chemical researchers, looking at its characteristics, has extraordinary potential. In the field of medicine, it may become a good medicine for treating serious diseases and helping patients to cure diseases and health. In the way of materials, it may lead to material innovation to make utensils more tough and durable. Although it is still in the research period, the future is bright. With time, after repeated trials and carving, it will surely shine, bring well-being to the world, promote the industry of medicine and materials to make great strides, and open a new chapter in the future.
    Where to Buy 2-Butyl-3-(3,5-Diiodo-4-Hydroxy Benzoyl) Benzofurane in China?
    As a trusted 2-Butyl-3-(3,5-Diiodo-4-Hydroxy Benzoyl) Benzofurane manufacturer, we deliver: Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements. Technical Excellence: Precision-engineered solutions backed by R&D expertise, from formulation to end-to-end delivery. Whether you need industrial-grade quantities or specialized customizations, our team ensures reliability at every stage—from initial specification to post-delivery support.
    Frequently Asked Questions

    As a leading 2-Butyl-3-(3,5-Diiodo-4-Hydroxy Benzoyl) Benzofurane supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

    What are the main uses of 2-butyl-3- (3,5-diiodo-4-hydroxy Benzoyl) Benzofurane?
    2 - butyl - 3- (3,5 - diiodo - 4 - hydroxy Benzoyl) Benzofurane, Chinese name or 2 - butyl - 3- (3,5 - diiodo - 4 - hydroxybenzoyl) benzofurane. This compound has a wide range of uses and is often used as an active ingredient in the field of medicine to develop drugs.
    The benzofuran and the iodine and hydroxybenzoyl groups in its structure give unique chemical and biological properties. Studies have found that benzofurans have various biological activities, such as antibacterial, anti-inflammatory, and anti-tumor. The presence of iodine atoms and hydroxyl groups in this compound may enhance its interaction with biological targets. For example, in the development of anti-tumor drugs, it may interfere with the proliferation and metastasis of tumor cells by virtue of a specific mechanism of action, bringing hope for overcoming cancer problems.
    In the field of materials science, it also shows potential application value. Due to its structure endowing certain electrical and optical properties, it may be used to prepare organic electronic devices, such as organic Light Emitting Diodes (OLEDs) and organic field effect transistors (OFETs). Its special chemical structure may enable the material to have unique photoelectric conversion properties, providing new possibilities for the development of high-performance, low-cost organic optoelectronic devices, and promoting the further development of display technology and electronic devices.
    In the field of agriculture, it may also have potential as an active ingredient in pesticides. With its biological activity, it can resist crop diseases and pests, ensure the healthy growth of crops, improve agricultural yield and quality, and compare with traditional pesticides, this compound may have advantages such as environmental friendliness and low toxicity, which meets the needs of modern green agriculture development.
    What are the chemical properties of 2-butyl-3- (3,5-diiodo-4-hydroxy Benzoyl) Benzofurane
    2 - butyl - 3 - (3,5 - diiodo - 4 - hydroxy Benzoyl) Benzofurane, which is an organic compound. Looking at its structure, it is composed of benzofuran, butyl and benzoyl groups containing diiodine and hydroxyl groups. Its chemical properties are interesting and can be viewed from many aspects.
    First talk about its physical properties. The compound may have a specific melting point and boiling point due to its molecular structure. The combination of benzofuran ring and butyl and benzoyl groups causes its intermolecular forces to be unique, or the melting point and boiling point are different from common simple organic compounds. And its solubility is also related to the structure. Because it contains hydrophilic hydroxyl groups and hydrophobic butyl and benzene ring parts, the solubility is different in polar and non-polar solvents. In water, or due to the balance of weak hydrophilicity and overall hydrophobicity of hydroxyl groups, the solubility is limited; in organic solvents such as ethanol and dichloromethane, or due to the matching of intermolecular forces, the solubility is good.
    In terms of chemical properties, hydroxyl groups are active. It can participate in esterification reactions. When encountering carboxylic acids or acid anhydrides, ester compounds can be formed under the action of suitable catalysts such as concentrated sulfuric acid. And hydroxyl groups are easily oxidized, and when encountering strong oxidants such as potassium permanganate, or the electron cloud density on the benzene ring and benzofuran ring changes, resulting in structural changes. Diiodine-substituted benzoyl Iodine atoms due to high electronegativity, benzoyl electron cloud distribution changes, making carbonyl more electrophilic. Or nucleophilic addition-elimination reaction with nucleophilic reagents such as alcohols and amines to generate corresponding derivatives.
    In addition, benzofuran ring-based conjugated system has aromatic properties and can undergo electrophilic substitution reaction. Due to the uneven distribution of electron cloud density on the ring, specific locations are more susceptible to attack by electrophilic reagents. Under appropriate conditions, it can react with halogenating agents, nitrifying agents, etc., to introduce new substituents on the ring.
    In summary, 2-butyl-3- (3,5-diiodo-4-hydroxy Benzoyl) Benzofurane has potential applications in organic synthesis, medicinal chemistry and other fields due to its unique structure and rich physical and chemical properties.
    What is the production process of 2-butyl-3- (3,5-diiodo-4-hydroxy Benzoyl) Benzofurane?
    To prepare 2 - butyl - 3- (3,5 - diiodo - 4 - hydroxy Benzoyl) Benzofurane, the preparation method is as follows:
    First take an appropriate amount of starting materials, when benzofuran derivatives are used as the base, in a specific reaction vessel, to create a suitable reaction environment. This environment requires precise regulation of factors such as temperature, pressure and reaction medium. The control of temperature is suitable within a certain range, so that the reaction can be steadily advanced without excessive and side reactions. The regulation of pressure cannot be ignored, and it needs to meet the needs of the reaction to facilitate effective collision between molecules.
    Select an appropriate reaction solvent to fully dissolve the raw material and promote the progress of the reaction. In this solvent, add an appropriate catalyst. The amount of catalyst needs to be accurately measured according to the scale of the reaction and the expected rate. Its function is to reduce the activation energy of the reaction and accelerate the reaction process.
    Subsequently, a reagent containing 3,5-diiodo- 4-hydroxybenzoyl group is slowly added to the reaction system in a specific ratio. When adding, pay close attention to the changes of the reaction to prevent sudden violent reactions. In this process, benzofuran derivatives and iodobenzoyl reagents gradually undergo chemical reactions under the action of catalysts and specific reaction conditions, and the molecular structure is rearranged and combined to convert the target product 2-butyl-3- (3,5-diiodo-4-hydroxy Benzoyl) Benzofurane.
    During the reaction process, a variety of analytical methods, such as thin-layer chromatography, liquid chromatography, etc., need to be used to monitor the degree of the reaction in real time. When the reaction reaches the expected progress, the reaction is stopped. Then, the product is separated and purified. Extraction, column chromatography and other methods are used to remove impurities in the reaction system, such as unreacted raw materials, catalyst residues and side reaction products. Pure 2 - butyl - 3 - (3, 5 - diiodo - 4 - hydroxy Benzoyl) Benzofurane product can be obtained by careful separation and purification process.
    In which fields is 2-butyl-3- (3,5-diiodo-4-hydroxy Benzoyl) Benzofurane widely used?
    2 - butyl - 3- (3,5 - diiodo - 4 - hydroxy Benzoyl) Benzofurane, which is an organic compound. Its application is quite extensive, in the field of medicine, or has unique medicinal potential. For example, when developing new antibacterial drugs, or because of its special chemical structure, it can affect the physiological process of specific pathogens, interfere with the metabolism or reproduction of pathogens, and thus exert antibacterial effect.
    In the field of materials science, or can be used as a key raw material for the construction of special functional materials. Due to the existence of iodine, hydroxyl and other groups in its structure, the compound has unique electronic properties and reactivity. It can be connected to the main chain or side chain of polymer materials through chemical reactions, so that the materials have novel properties such as light response, electrical conductivity change, etc., and can be used to make advanced electronic devices or smart materials.
    In agriculture, there are also potential uses. It may be developed as a new type of plant growth regulator, which can affect the growth, flowering, fruit and other processes of plants by regulating the hormone balance in plants, help improve crop yield and quality, and because of its organic properties, or more easily degradable than traditional regulators, it has less impact on the environment. In short, this compound has broad application prospects in many fields such as medicine, materials, agriculture, etc., and is expected to bring new opportunities for the development of various fields.
    What is the market outlook for 2-butyl-3- (3,5-diiodo-4-hydroxy Benzoyl) Benzofurane?
    Today, there are 2-butyl-3- (3,5-diiodo-4-hydroxy Benzoyl) Benzofurane. The prospects for the market need to be reviewed in detail.
    This product has unique properties and is used in various fields such as medicine and chemical industry, or where it is available. However, in order to understand its market prospects, many factors must be carefully investigated.
    The first one to bear the brunt is the market demand. In the pharmaceutical industry, if it has significant efficacy on specific diseases, can be used by doctors to treat diseases, and has unique advantages compared with other drugs, such as better curative effect and fewer side effects, the demand must be considerable. In the chemical industry, if it can be used as a special raw material to make high-end materials and meet special industrial needs, it will also attract market attention.
    Second, the difficulty and cost of production. If the preparation method is complicated, rare raw materials are required, or huge amounts of energy are consumed, resulting in high production costs, there will be many obstacles in marketing activities. Only with simple processes and controllable costs can we gain a head start in market competition.
    Furthermore, the impact of regulations and policies. In the pharmaceutical field, drug approval is strict, and multiple tests are required to ensure safety and effectiveness before it can be put on the market. Chemical uses also need to meet environmental protection and other regulatory requirements. If regulations are too restrictive or strict, it will also affect its market path.
    In addition, the market competition situation. If there are many congeneric products, and each has its own strengths and weaknesses, it is by no means easy to stand out. It must be unique in terms of quality, price, service, etc., in order to win a place.
    In summary, the market prospects of 2 - butyl - 3 - (3,5 - diiodo - 4 - hydroxy Benzoyl) Benzofurane, although there is potential, it is also full of thorns. Only by properly planning in terms of demand insight, production optimization, regulatory compliance, and competition response can we hope to open up a vast world.
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