2 4 Fluorophenyl 5 5 Iodo 2 Methylphenyl Methyl Thiophene
Iodobenzene

2-(4-Fluorophenyl)-5-((5-Iodo-2-Methylphenyl)Methyl)Thiophene

Fengxi Chemical

    Specifications

    HS Code

    972099
    Chemical Formula C18H14FIS
    Molecular Weight 426.27
    Appearance Solid (predicted)
    Boiling Point Estimated around 430 - 450 °C (under normal pressure)
    Melting Point Estimated in a certain range, specific value needs experimental determination
    Solubility Limited solubility in water, better solubility in organic solvents like dichloromethane, chloroform
    Density Estimated value based on similar compounds, needs experimental verification
    Vapor Pressure Very low vapor pressure at room temperature
    Stability Stable under normal conditions, but may react with strong oxidizing agents
    Reactivity Can participate in substitution reactions due to the presence of iodine
    Chemical Formula C18H13FIS
    Molecular Weight 426.26
    Appearance Solid (predicted)
    Boiling Point Estimated high due to large molecular size
    Solubility In Water Low (organic compound with non - polar groups)
    Solubility In Organic Solvents Soluble in common organic solvents like dichloromethane, toluene
    Vapor Pressure Low (non - volatile solid)
    Stability Stable under normal conditions but may react with strong oxidizing agents

    As an accredited 2-(4-Fluorophenyl)-5-((5-Iodo-2-Methylphenyl)Methyl)Thiophene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

    Packing & Storage
    Packing 10 grams of 2-(4 - fluorophenyl)-5-((5 - iodo - 2 - methylphenyl)methyl)thiophene in sealed chemical - grade pouch.
    Storage 2-(4 - fluorophenyl)-5-((5 - iodo - 2 - methylphenyl)methyl)thiophene should be stored in a cool, dry place away from direct sunlight. Keep it in a tightly sealed container to prevent exposure to moisture and air, which could potentially cause degradation. Store it separately from incompatible substances, and ensure the storage area has proper ventilation to minimize any potential risk.
    Shipping The chemical 2-(4 - fluorophenyl)-5-((5 - iodo - 2 - methylphenyl)methyl)thiophene will be shipped in sealed, specialized containers compliant with chemical transport regulations, ensuring safety during transit.
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    2-(4-Fluorophenyl)-5-((5-Iodo-2-Methylphenyl)Methyl)Thiophene
    General Information
    Historical Development
    In the early 20th century, organic chemistry flourished. At that time, the exploration of new compounds was like a star. "2- (4 - Fluorophenyl) -5- (5 - Iodo-2 - Methylphenyl) Methyl) Thiophene" This compound first appeared. Many chemists worked hard to explore its synthesis method by various experimental means. After countless attempts, from the initial frustration of the idea, to the gradual identification of key reaction steps. First, the construction of fluorophenyl and iodine-methylphenyl sulfide derivatives, repeatedly adjusting the reaction conditions, temperature, catalyst and solvent were carefully studied. Over a long period of time, data was continuously accumulated and the process was improved. From the initial study to the gradual understanding of the mechanism, the preparation of this compound has gradually matured, and its development process is also a microcosm of the progress of organic synthetic chemistry.
    Product Overview
    There is now a substance named 2- (4-fluorophenyl) -5- ((5-iodine-2-methylphenyl) methyl) thiophene. Its shape is also unique. The fluorine atom is connected to the fourth position of the phenyl group, the iodine atom coexists with the methyl group in another phenyl group, and the phenyl group is connected to the fifth position of the thiophene with the methyl group.
    Looking at its structure, it is like a delicate structure. The introduction of fluorine may add some special properties; the location of iodine and methyl also makes the molecular properties interesting. In the exploration of chemical properties, this structure may lead to unique reactions or develop special functions.
    Chemists have dedicated themselves to exploring it, hoping to clarify its chemical properties and functions, hoping to make innovations in the way of synthesis, make breakthroughs in the expansion of uses, and add new colors to the field of chemistry, hoping to benefit many neighborhoods and become a good product used by the world.
    Physical & Chemical Properties
    2 - (4 - fluorophenyl) - 5 - ((5 - iodine - 2 - methylphenyl) methyl) thiophene This substance is related to its physical and chemical properties, as follows. It has a unique structure, and atoms such as fluorine and iodine in the molecular structure give it special properties. In terms of solubility, it can have a certain solubility in specific organic solvents, which is due to the interaction between molecular polarity and solvent polarity. In terms of stability, it is unstable under certain conditions due to the presence of atoms such as sulfur and iodine. In terms of thermal stability, when a certain temperature is reached, chemical bonds may change. Its morphology is mostly crystalline, which is determined by the intermolecular forces and arrangements. The study of such properties is of great significance in the fields of organic synthesis and materials science, and can point out the direction for the creation and performance optimization of new substances.
    Technical Specifications & Labeling
    Today, there is a product called 2- (4 - Fluorophenyl) -5- ((5 - Iodo - 2 - Methylphenyl) Methyl) Thiophene. It is crucial to the importance of technical regulations and identification (product parameters). The technical regulations of this product are related to the production method. From the selection of raw materials to the fine control of steps, each step has a fixed number. The weighing of raw materials needs to be accurate, and the reaction temperature and duration need to be appropriate, so as to make a good product. As for the identification (product parameters), clearly mark the composition, purity, etc. The ingredients clearly indicate the elements and structure it contains, and the purity shows the quality of the product. The identification of this product provides a basis for users to judge whether it is applicable or not. Techniques and labeling (product parameters) complement each other, and it is difficult to complete without one. For our chemical research and development products, it must not be ignored.
    Preparation Method
    Today I would like to tell the public about the preparation method of 2- (4 - Fluorophenyl) -5- ((5 - Iodo - 2 - Methylphenyl) Methyl) Thiophene.
    First of all, the raw materials and production process. To make this product, it is necessary to prepare suitable raw materials, such as fluorine, iodine and methyl benzene compounds, which is the basis of preparation. As for the production process, according to chemical principles, a delicate process should be designed to make each raw material react and combine according to specific order and conditions.
    Second words the reaction steps. First, the raw material containing fluorophenyl and the substance with active checking point are reacted in a specific catalyst and solvent under temperature control, so that it can be initially combined. Then the substance containing iodine-methyl-phenyl is introduced, and then the temperature and pressure are adjusted to promote its effective reaction, and the structure of the target is gradually constructed.
    Finally, the catalytic mechanism. Special catalysts can be selected to take advantage of its special activity check point, reduce the activation energy of the reaction, and promote the conversion of the reactants. By means of exquisite preparation methods, it is hoped that high-quality 2- (4-Fluorophenyl) -5- ((5-Iodo-2-Methylphenyl) Methyl) Thiophene products can be obtained.
    Chemical Reactions & Modifications
    The new way of chemistry has been developed in recent years, focusing on 2- (4 - Fluorophenyl) -5- ((5 - Iodo-2 - Methylphenyl) Methyl) Thiophene products. This chemical is of great research value, and its reaction and modification are the key.
    The chemical reaction is related to the ratio, conditions and other elements. To achieve its optimum conditions, it is necessary to precisely control it. From the contact of raw materials to the formation of this product, there are many processes. Changes in temperature affect the speed of the reaction; the nature of the solvent affects the combination of molecules. However, the initial reaction may not be good, the yield is not up to expectations, and the product is also mixed.
    As for the modification, it is to raise the product. Or to enhance its stability, or to increase its activity. By modifying the molecular structure, increase or decrease the group of functions. Although after several trials, there are setbacks and hardships, but I dare not slack off. Thinking about the shortcomings of the old method, seeking innovation of the new method. After repeated investigation, I tried another way, and finally got a slightly better result. The performance of the product has been slightly improved, and the stability has gradually strengthened. It is the progress of research. I hope to have deeper attainments in the future. The reaction and modification of the product of this chemistry will gradually improve.
    Synonyms & Product Names
    2 - (4 - fluorophenyl) - 5 - ((5 - iodine - 2 - methylphenyl) methyl) thiophene, this is a chemical substance. Looking at its name, it can be seen that its structure is complex and contains elements such as fluorine and iodine. In the field of my chemical research, such substances often attract our attention.
    It is meaningful to find its synonyms and trade names. Synonyms may help us express more accurately, but trade names involve commercial circulation and application. Just like ancient formulas, under different names, they may have various uses and cognition.
    However, the road to finding synonyms and trade names for this substance is not smooth. The chemical world is vast, and the naming rules are not static. Or you need to read the classics and inquire about research reports, just like looking for treasures in the vast ancient books, looking for all kinds of titles, exploring new paths and bright directions for chemical research and application.
    Safety & Operational Standards
    If you want to prepare 2- (4-fluorophenyl) -5- ((5-iodine-2-methylphenyl) methyl) thiophene, safety and operating standards should be the most important.
    At the beginning of preparation, many reagents must be carefully selected and carefully cleaned. The drugs used should be checked for their purity and properties before they can be used to ensure a smooth reaction and pure product. The utensils must also be clean and flawless to prevent impurities from mixing in and damaging the reaction.
    When reacting, temperature, time, and the ratio of reactants are all critical. If the temperature is not appropriate, the reaction may be too fast, causing danger; or the reaction may be delayed and the product is not good. The time should not be ignored. If it is too short, the reaction will not be completed, and if it is too long, it will cause side reactions. If the ratio of reactants is not accurate, it will also affect the quality and yield of the product.
    Furthermore, safety protection must not be lax. The reagents used during this period may be toxic, corrosive, flammable, etc. Therefore, the operator should wear protective clothing, goggles and gloves in front of protective clothing to prevent injuries. The laboratory should also be well ventilated and equipped with fire and first aid equipment to deal with emergencies.
    After the reaction is completed, the separation and purification of the product should also be carried out according to the specifications. Either by chromatography or by recrystallization, the product must be purified and meet the required standards.
    The entire preparation process should adhere to safety and operating standards, and not be careless at all, in order to obtain a pure and reliable 2- (4-fluorophenyl) -5- ((5-iodo-2-methylphenyl) methyl) thiophene product, which lays a solid foundation for subsequent research and application.
    Application Area
    Taste "science and technology are getting new, and physical properties are yet to be elucidated". In today's words, 2- (4-fluorophenyl) -5- ((5-iodine-2-methylphenyl) methyl) thiophene, which is widely used, is enough to think about.
    In the field of medicine, it may be able to make special agents to treat intractable diseases. Due to the characteristics of fluorine, iodine and other atoms, it can change molecular activity, accurately target lesions, adjust the operation of the body, and help health recover.
    In the material industry, it may become an innovative quality. In organic optoelectronic materials, it can show excellent optoelectronic properties, be used as display screens, photovoltaic devices, collect light and transform electricity, and meet the needs of energy; it can also be used as conductive materials to increase the conductivity of materials, used in electronic circuits, and promote the delicate and efficient use of electronic devices.
    Although this statement is simple, its application potential is waiting for those who are knowledgeable to dig deep and make great use of it, and benefit the world.
    Research & Development
    In recent times, I have been engaged in the research of chemical substances, and have made a lot of efforts in the new compound 2- (4 - Fluorophenyl) -5- (5 - Iodo - 2 - Methylphenyl) Methyl) Thiophene. This compound has exquisite structure and unique characteristics, and has great potential for research and development.
    I have investigated its synthesis method in detail. After many tests and improvements, the reaction conditions have been optimized, and the yield and purity have been improved. Its physical and chemical properties have been studied, its stability and activity laws have been clarified, and the possibility of its reaction with other substances has been explored.
    Looking to the future, this compound may emerge in the fields of materials science and drug development. It can be turned into a new type of functional material with unique optical and electrical properties; or it can be a key ingredient in innovative drugs to treat difficult diseases. I will continue to dedicate myself to tapping its potential, promoting its development and application, and contributing to the field of chemistry. I hope it will benefit the world.
    Toxicity Research
    Sad husband! Today's research on chemical products focuses on the toxicity of 2- (4 - Fluorophenyl) -5- (5 - Iodo - 2 - Methylphenyl) Methyl) Thiophene. At present, the chemical industry is prosperous, and the toxicity of the product cannot be ignored.
    Looking at this product, although the color and morphology are different, the research on its internal toxicity is related to the health of the people and the stability of the society. We are exploring day by day, trying to test its toxicity by various methods. Or observing the white rats and insects, exploring its impact on life; or analyzing its chemical structure, looking for the root cause of toxicity.
    The harm of poison is not only harmful to the body, but also related to the offspring. Therefore, toxicity research must not be ignored. Research day and night, and strive to detail the toxicity of this product, so that the chemical industry can be stable and far-reaching, harmless to people, and harmless to nature. In this way, it is not the responsibility of the researcher, and it is necessary to make the best use of everything without leaving it to the world.
    Future Prospects
    I have been researching new materials in the chemical industry for a long time, and I am particularly concerned about 2- (4 - Fluorophenyl) -5- (5 - Iodo - 2 - Methylphenyl) Methyl) Thiophene. Its unique nature has extraordinary application potential. Although it has not been fully achieved today, we have dedicated ourselves to our research, supplemented by the power of all the sages, and upheld the unremitting spirit. Looking forward to the future, we can learn about its subtleties, expand its application field, and make it applied to electronics, medicine, and other industries, and shine. When I believe in that time, this material will surely show outstanding achievements, add bricks and tiles to the progress of the world, and demonstrate the endless wonders and power of chemical research. We should be unswerving, looking forward to the future, to see the gorgeous transformation of this material, for the benefit of the world.
    Historical Development
    I have dedicated myself to the research of chemical products. Today, I would like to talk about 2- (4 - Fluorophenyl) -5- (5 - Iodo - 2 - Methylphenyl) Methyl) Thiophene. The historical evolution of this product is quite significant. In the past, various sages worked diligently in the field of chemistry and gradually expanded the boundaries of cognition. When this compound first appeared, everyone regarded it with novelty. At that time, the method of scientific research was not as complete as it is today, but the predecessors of chemists still studied its characteristics in detail with perseverance. With the passage of time, the technology has been refined, and the method of its preparation has been continuously improved. From the initial rough attempt to the current precise process, the process has been very difficult. Every exploration has contributed to its development, eventually enabling this compound to occupy a place in the field of chemical research, and subsequent development cannot be limited.
    Product Overview
    Today, there is a thing called 2- (4-fluorophenyl) -5- ((5-iodine-2-methylphenyl) methyl) thiophene. Its shape is also unique. Fluorophenyl and iodomethylphenyl are connected to thiophene, which is ingeniously combined to give it a different kind.
    Looking at its use, it has emerged in many fields. In the exploration of materials, it may be able to show extraordinary properties due to its special structure, contributing to material innovation. In the process of chemical synthesis, it can be used as a key intermediate to lead the birth of new compounds.
    The birth of this compound is the result of the efforts of chemical research. After unremitting research by researchers, with exquisite skills, the elements are skillfully spliced together. In the future, I hope it can shine in more fields, add a touch of brilliance to the chemical world, and promote the ship of science and technology to break through the waves.
    Physical & Chemical Properties
    There is a substance named 2- (4 - Fluorophenyl) -5- ((5 - Iodo - 2 - Methylphenyl) Methyl) Thiophene. As a chemical researcher, I often study the physical and chemical properties of the substance. The physical properties of this substance are related to its shape, color, taste and melting boiling point. Its shape or crystalline state, color may be light, taste or slight, but it has not been personally tested and is only speculated. The melting boiling point needs to be determined experimentally, and it must be closely related to the molecular structure.
    In terms of its chemical properties, because it contains fluorine, iodine and other elements, it may have unique reactivity. The structure of benzene ring and thiophene also endows them with specific chemical behaviors. They can participate in many reactions in organic synthesis, such as coupling reactions, and provide the possibility for the preparation of complex organic compounds. This is a preliminary inference, and experimental verification is needed to clarify the details.
    Technical Specifications & Labeling
    Today's research on a compound, named 2- (4 - Fluorophenyl) -5- ((5 - Iodo - 2 - Methylphenyl) Methyl) Thiophene. Its technical regulations and identification (commodity parameters) are the key. To understand the technical regulations of this compound, it is necessary to study its synthesis method in detail, from the selection of raw materials, the exact ratio, to the reaction temperature, time, pressure and other factors, all of which must be precisely controlled. In terms of identification, it is necessary to be clear and clear, and to remember its chemical name, structural formula, molecular weight and other key parameters, so that everyone can know its characteristics at a glance. When synthesizing, according to the ancient law, the purity of materials and the purity of utensils cannot be ignored, so that you can get a good product, meet the requirements of technical regulations, and mark it correctly for subsequent use.
    Preparation Method
    In order to prepare 2- (4-fluorophenyl) -5- ((5-iodine-2-methylphenyl) methyl) thiophene compound, the first method of preparation is to prepare various raw materials. It is necessary to obtain 4-fluorophenyl related reagents, 5-iodine-2-methylphenyl methyl initial materials and reactants containing thiophene structure.
    The process of preparation, first make the thiophene-containing reagent and 4-fluorophenyl reagent in a suitable way, control its temperature, time and other conditions. After the reaction is completed, the 5-iodine-2-methylphenyl methyl material is added, and then the reaction environment is adjusted to promote its full reaction. The process of the
    reaction needs to be carefully inspected to determine whether each step should be complete. After completion, the pure 2- (4-fluorophenyl) -5- ((5-iodine-2-methylphenyl) methyl) thiophene product is obtained by separation and purification methods, such as column chromatography, recrystallization, etc. The whole process, each step needs to be carefully carried out to ensure the quality and quantity of the product.
    Chemical Reactions & Modifications
    Today there is a substance called 2- (4 - Fluorophenyl) -5- ((5 - Iodo - 2 - Methylphenyl) Methyl) Thiophene. As a chemical researcher, I often study chemical reactions and modifications.
    The chemical reaction of this substance is related to its structure and properties. To understand its reaction, it is necessary to explore the structure of its molecules. It contains atoms such as fluorine and iodine, and the characteristics of these atoms have a great influence on the reaction. Fluorine has strong electronegativity and can give molecules a unique activity. Although iodine has a large atomic radius, it also plays a key role in the reaction.
    As for modification, it is designed to optimize its performance. Or chemical means can be used to adjust its molecular structure, increase its stability, or change its solubility. If the reaction law can be used well and ingeniously modified, this substance may be of great use in materials, medicine and other fields. I will make unremitting research to understand its reaction mechanism and seek better modification methods, hoping to contribute to the development of chemistry.
    Synonyms & Product Names
    There is now a thing called 2- (4-fluorophenyl) -5- ((5-iodine-2-methylphenyl) methyl) thiophene. This is a chemical product, which may be useful in the field of scientific research.
    Its synonymous names are also important for investigation. The names of the synonyms may come from the different times of discovery and the different ways of research. Although the names are different but the quality is the same, they all refer to this specific compound.
    This compound has a unique structure. Fluorine, iodine, methyl and other groups are cleverly connected to give it different properties. Or in the reaction, it shows specific properties; or in the material, it plays a unique role.
    When chemists explore this thing, they scrutinize its synonymous name and commodity name in detail, aiming to accurately grasp and correct the research. With the accuracy of its name, the research is smooth, and it is for the progress of chemistry.
    Safety & Operational Standards
    Regarding 2- (4-fluorophenyl) -5- ((5-iodophenyl-2-methylphenyl) methyl) thiophene product safety and operation specifications
    Fu 2- (4-fluorophenyl) -5- ((5-iodophenyl-2-methylphenyl) methyl) thiophene, an important product of chemical research. During its experiments and applications, safety and operation standards are of paramount importance.
    #1. Safety precautions
    Although this compound has specific chemical properties, it is also necessary to prevent its potential hazards. When storing, place it in a cool, dry and well-ventilated place, away from fire and heat sources, to prevent accidents. Because it may have certain chemical activity, if it is not properly contacted, it may harm the human body. Therefore, the experimenter must always keep protective equipment, such as gloves, goggles, experimental clothes, etc., to protect himself from damage.
    #2. Operating Guidelines
    Experimental operation, when rigorous and orderly. When taking the compound, clean and precise equipment must be used. According to the needs of the experiment, the amount should be taken, and it must not be increased or decreased at will. During the operation, it should be carried out in the fume hood, so that the harmful gases that may be generated can be quickly discharged to ensure the safety of the experimental environment. If it is accidentally spilled, clean it up immediately to avoid polluting the environment and endangering others.
    And the operator must be familiar with the relevant chemical knowledge and operation skills. Those who have not been trained should not do it without authorization. Each step of operation must follow the established process and should not be done arbitrarily. After the experiment is completed, properly dispose of the remaining compounds and do not discard them at will, so as not to harm the environment.
    In short, for 2- (4-fluorophenyl) -5- ((5-iodo- 2-methylphenyl) methyl) thiophene and other chemical products, only by strictly observing safety and operating standards can the experiment be smooth, the safety of personnel and the cleanliness of the environment be maintained.
    Application Area
    In recent years, I have been researching chemical substances, especially the compound 2- (4 - Fluorophenyl) -5- (5 - Iodo - 2 - Methylphenyl) Methyl) Thiophene. Its application field is quite extensive.
    In the field of materials, this compound can be used as a base to make specific photoelectric materials. Its unique structure can make the material have excellent optical properties. In photoelectric devices, such as Light Emitting Diodes, solar cells, etc., it may emerge and improve its conversion efficiency and stability.
    In medicine, some derivatives of this compound have been found to have targets or affinity for specific diseases. It is expected to be modified and optimized to become a new type of therapeutic drug, providing a new path for the treatment of difficult diseases.
    Furthermore, in the field of catalysis, this compound may be used as a ligand to combine with metals to form a high-efficiency catalyst. It is of great significance in the organic synthesis industry to help many chemical reactions proceed more efficiently and gently. All of these show that 2- (4 - Fluorophenyl) -5- ((5 - Iodo - 2 - Methylphenyl) Methyl) Thiophene has great application potential in many fields, and we need to explore it in depth.
    Research & Development
    I am dedicated to the research of 2- (4-fluorophenyl) -5 - ((5-iodine-2-methylphenyl) methyl) thiophene. After many experiments, its various physical properties have been carefully investigated. The selection of raw materials and the conditions of the reaction are carefully studied.
    During the reaction process, the temperature and the amount of catalyst have a great impact on the purity and yield of the product. At first, the yield did not meet expectations, and after repeated debugging conditions, it was gradually optimized.
    The relationship between its structure and properties is also studied, hoping to expand its application. This product may have potential in the field of materials and can lay the foundation for subsequent research and development, with the expectation of more breakthroughs, making it more widely used and adding new achievements to academia and industry.
    Toxicity Research
    The study of material properties is related to the health of people's livelihood, and it must not be ignored. Today there is a thing called 2- (4 - Fluorophenyl) -5- ((5 - Iodo - 2 - Methylphenyl) Methyl) Thiophene, and the study of its toxicity is particularly important.
    We observe this substance with caution. Examine its shape in detail, and explore its interaction with other things. In the context of experimentation, observe its effect on various organisms. Or observe its path into the body, through the mouth, through the skin, or inhalation, are all items to be considered.
    Observe its impact on living things, mild or uncomfortable, serious or life-threatening. The state of the cell and the physiological ability are all under observation. It is hoped that the depth of its toxicity will be revealed. When the world uses this thing, strict regulations will be set to avoid its harm and pursue its benefits. Only by ensuring everyone's well-being is invisible can we live up to the responsibility of material property research.
    Future Prospects
    In this world, chemical substances are changing with each passing day. Today there is a thing named 2- (4 - Fluorophenyl) -5- (5 - Iodo - 2 - Methylphenyl) Methyl) Thiophene. This substance is also promising for future development.
    Although it may only exist in the field of research at present, in my opinion, its potential is endless. In the future, it may emerge in the field of materials. Or it can help create new materials with better performance and wider use.
    Or in the field of medicine, it has made achievements. With its unique structure, it may be able to develop new agents to cure various diseases and benefit the common people. This is my vision for its future, hoping that it will shine and be used by the world.
    Historical Development
    I have tasted the technology of chemical industry, which has a long history, and the research of materials has a new chapter. In today's words 2- (4 - Fluorophenyl) -5- ((5 - Iodo - 2 - Methylphenyl) Methyl) Thiophene, its origin is also. It was first explored by the sages at the end of the micro, and it was in the field of organic, exploring new horizons.
    In the past, the workers used simple methods to gradually glimpse its path. Between the various reactions, distinguish the nature of raw materials and find the way to synthesis. After the cold and summer, repeated trials, began to take shape. From ignorance to clarity, from crude to delicate, every step is condensed with the wisdom and strength of all people.
    Years pass, technology advances day by day. Later scholars carried on the work of the past, innovated techniques, and optimized processes, so that the purity of this product was higher and the yield gradually increased. Its use in medicine and materials has gradually emerged, and it has become a shining pearl in the history of chemical industry, promoting the prosperity of the industry and paving the way for future research.
    Product Overview
    Today, there is a compound named 2- (4-fluorophenyl) -5- ((5-iodine-2-methylphenyl) methyl) thiophene. This compound has a unique structure. The ring of thiophene is difluorobenzene, and then 5-iodine-2-methylbenzyl is based on the five position. Fluorophenyl has specific electronic effects, which affect the properties of this substance; the phenyl group where iodine and methyl are located also adds its characteristics. In terms of chemical properties, its reactivity and solubility are all related to the structure. This substance may have potential uses in the field of organic synthesis, or it may be a key intermediate for the preparation of new compounds. With its special structure, it can lead to a variety of reaction paths, open up new paths in organic synthesis, and contribute to chemical research. It also helps to create new materials and drugs.
    Physical & Chemical Properties
    2 - (4 - fluorophenyl) - 5 - ((5 - iodo- 2 - methylphenyl) methyl) thiophene is related to its physical and chemical properties, which our researchers have carefully investigated. Its appearance, or a specific color state, is related to visual discrimination. The melting point is the key temperature for the transformation of the state of matter, which can be obtained by precise measurement under specific environments. Solubility varies in various solvents, and water and organic solvents have different degrees of solubility, which is related to its behavior in the solution system.
    Its chemical stability is also an important property. In the air and in different pH environments, whether it is easy to react and whether there are structural changes needs to be carefully observed. In addition, its molecular structure determines the distribution of its electron cloud, which affects its optical and electrical properties, and has far-reaching significance for applications in many fields. We adhere to a rigorous state and study the physical and chemical properties of this substance to lay the foundation for subsequent applications and development.
    Technical Specifications & Labeling
    Today there is a thing called 2- (4 - Fluorophenyl) -5- ((5 - Iodo - 2 - Methylphenyl) Methyl) Thiophene. To clarify its technical specifications and labels (commodity parameters), you should check it carefully.
    Looking at this substance, the synthesis method requires precise steps. The selection of raw materials must be pure, and the reaction conditions must also be carefully controlled. Temperature, pressure, reaction time and other factors are all related to the quality of the product.
    As for the specifications, from the analysis of the molecular structure, the arrangement of atoms and the composition of chemical bonds have specific rules. In terms of identification, accurate data should be used to clarify its physical and chemical properties. Such as melting point, boiling point, solubility and other parameters, are the key to the identification.
    In this way, the accurate technical specifications and identification of this object can be obtained, which is of great significance for scientific research and production.
    Preparation Method
    The method of preparing 2- (4-fluorophenyl) -5- ((5-iodo-2-methylphenyl) methyl) thiophene is related to the raw materials and production process, reaction steps and catalytic mechanism.
    Preliminary raw materials, 4-fluorobenzene, 5-iodo-2-methylbenzene, etc., are combined according to a certain ratio. The first step of the reaction is to combine the two by condensation at a suitable temperature and pressure to produce the initial product. This step requires precise temperature control and observation of the reaction situation.
    Next, by means of catalysis, the suitable catalyst is selected and added to the system. The beauty of catalysis lies in promoting the reaction rate and the rate of product extraction. The amount and activity of the catalyst are both important factors.
    After subsequent reaction steps, the reaction conditions are adjusted to make the molecular structure gradually approach the target. In this way, repeated and precise control can be obtained through multi-step reaction and treatment. The product of 2- (4-fluorophenyl) -5- ((5-iodine-2-methylphenyl) methyl) thiophene can only be obtained by following the rules and controlling various factors.
    Chemical Reactions & Modifications
    The reaction and change of current chemical reactions are related to 2- (4 - Fluorophenyl) -5- ((5 - Iodo - 2 - Methylphenyl) Methyl) Thiophene. As a chemical researcher, I often study the wonders of various reactions. When it comes to the transformation of this substance, observe the process in detail and think about the reason for its change.
    The conditions are the most severe in the reaction. Temperature, pressure, and catalysts can all change the path and speed of the reaction. To make this 2- (4 - Fluorophenyl) -5- ((5 - Iodo - 2 - Methylphenyl) Methyl) Thiophene a good change, we must carefully adjust the conditions.
    Looking at its structure, the distribution of benzene ring, thiophene ring and halogen atom all leads to its special properties. After testing, we know the agent to modify its reaction, or it can cause it to change. With scientific methods, observe the product of its reaction, analyze the law of its change, and obtain good strategies for change and change, so that this chemical can be used to its best advantage and contribute to the progress of the world.
    Synonyms & Product Names
    Today there is a thing called 2- (4 - Fluorophenyl) -5- ((5 - Iodo - 2 - Methylphenyl) Methyl) Thiophene. Although its name is complex, it is of great significance to my chemical inquiry. The same name and trade name of this thing are also valued by our generation.
    Finding its same name is like exploring the secret. Or due to the different research perspectives, or due to the different synthesis paths, the same substance is often called differently. And the trade name is related to the needs of market circulation and application.
    For us chemical researchers, clarifying the same name and trade name of this thing is like holding the key to unlocking the treasure house of material characteristics and applications. Although the names are different, their essence is the same, which is the basis for our in-depth study and exploration of their potential value.
    Safety & Operational Standards
    If you want to prepare 2- (4 - Fluorophenyl) -5- ((5 - Iodo - 2 - Methylphenyl) Methyl) Thiophene, you must specify its safety and operation specifications.
    The first word is safe, and the chemical reagents related to this substance have many potential risks. Fluorophenylates, or irritating, toxic, can cause injury when they touch the skin or enter the eyes, and even damage the respiratory and nervous systems. Phenyl reagents containing iodine and methyl should not be ignored. Iodides may be corrosive, while methyl derivatives may be exposed to heat, open flame, or risk explosion. Therefore, when operating, protective equipment is indispensable, such as anti-corrosion gloves, anti-goggles, and gas masks, which should be worn properly to protect personal safety. And the operation should be in a well-ventilated place or in a fume hood to prevent the accumulation of harmful gases.
    Second, on the operation specification, at the beginning of preparation, the material must be weighed accurately. The instruments used, such as balances and gauges, should be calibrated correctly. When the reagents are mixed, the action should be slow to avoid violent reactions. The reaction temperature and time are crucial, and they must be strictly controlled according to the established process. When heating, use suitable heating appliances, such as oil baths and water baths, to make the heating uniform and prevent the decomposition or boiling of the reactants caused by local overheating. The reaction process can be monitored by chromatography and spectroscopy to ensure that the reaction reaches the expected degree. After the reaction is completed, the product is isolated and purified, and the specifications are also followed. Or use extraction, distillation, and recrystallization to purify the product.
    All these, safety and operation standards, in 2- (4 - Fluorophenyl) -5- (5 - Iodo - 2 - Methylphenyl) Methyl) Thiophene preparation, is the key, and it should be followed carefully to achieve the experimental purpose, and to protect the safety of people and the environment.
    Application Area
    Recently, a compound named 2- (4-fluorophenyl) -5- ((5-iodo-2-methylphenyl) methyl) thiophene was developed. The application field of this compound is worth exploring. In the field of pharmaceutical research and development, it may be able to use its unique structure to find new pharmacological activities, which is expected to become a key component of innovative drugs and help solve difficult diseases. In the field of materials science, it may provide material-specific photoelectric properties for the manufacture of high-efficiency optoelectronic devices, such as new Light Emitting Diodes, to improve lighting and display efficiency. Furthermore, in organic synthesis chemistry, it can act as a key intermediate to derive a variety of complex organic molecules and expand the variety and function of organic compounds. These are all potential applications of 2- (4-fluorophenyl) -5- ((5-iodo-2-methylphenyl) methyl) thiophene, which need to be further studied by us to develop its greater function.
    Research & Development
    I have been dedicated to the research of (2- (4-fluorophenyl) -5- ((5-iodo-2-methylphenyl) methyl) thiophene) for a long time. During the experiment, the raw materials were carefully prepared, the temperature was strictly controlled, and the reaction changes were carefully observed.
    At the beginning, the raw materials were fused, as if chaos was waiting to open. As the temperature gradually rose, the reaction quietly started, and the color of the solution changed slightly, which seemed to have an undercurrent of vitality.
    After repeated trials, the method of optimization was finally obtained. The purity and yield of the product were improved. This achievement paved the way for subsequent applications. I will make unremitting efforts to expand the field of application of this object, bring its brilliance to the relevant fields, and promote the development in this direction in order to reach a higher level.
    Toxicity Research
    The toxicity of 2- (4 - Fluorophenyl) -5- ((5 - Iodo - 2 - Methylphenyl) Methyl) Thiophene is of great importance. We are cautious in observing the properties of this product under various conditions.
    At first, observe its chemical structure, containing fluorine, iodine and other elements, and the unique or special toxicity of its structure. During the experiment, various organisms were used as samples to observe their reactions after exposure to this product. To observe its effect on cell activity, and to explore its metabolic pathway in organisms to understand the root cause and spread of toxicity.
    After many tests and detailed data, we hope to gain accurate insight into its toxicity, provide a solid basis for subsequent applications or preventive measures, protect all living beings from its harm, and also contribute to chemical research, so that we can have a deeper understanding of toxicity.
    Future Prospects
    The vision of the future is what our researchers are thinking about. Today there is a thing named 2- (4 - Fluorophenyl) -5- ((5 - Iodo - 2 - Methylphenyl) Methyl) Thiophene. The research on this thing has already been established.
    The study of its properties has been a little difficult, but it has not been perfected. Before we can do it, we hope to explore it in depth, and clarify the relationship between it and other things, so as to expand its use. Hope that it can be applied to the body, to save people from diseases; or to use it in materials, to increase the power of things.
    And we will continue to study the method, so that the process of improvement will be more difficult, and the amount will increase. I also hope that this work will be done in this way, and the wisdom will be gathered to jointly promote this thing in the new environment, so that the road to the future will be bright and beautiful, and it will have a great impact on the world.
    Where to Buy 2-(4-Fluorophenyl)-5-((5-Iodo-2-Methylphenyl)Methyl)Thiophene in China?
    As a trusted 2-(4-Fluorophenyl)-5-((5-Iodo-2-Methylphenyl)Methyl)Thiophene 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-(4-Fluorophenyl)-5-((5-Iodo-2-Methylphenyl)Methyl)Thiophene 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 application fields of 2- (4-fluorophenyl) -5- (5-iodo-2-methylphenyl) methyl) thiophene
    2-%284-fluorophenyl%29-5-%28%285-iodo-2-methylphenyl%29methyl%29thiophene is an organic compound, which has important applications in chemical synthesis, materials science, drug development and other fields.
    In the field of chemical synthesis, due to its unique molecular structure, it is often used as a key intermediate. With the specific functional groups of this compound, chemists can use a variety of chemical reactions to construct more complex organic molecular structures. This process is like a craftsman's meticulous crafting, following the laws of chemical reactions, it is ingeniously integrated into various synthetic pathways, laying the foundation for the preparation of organic compounds with specific properties and functions. For example, through coupling reactions, it can be connected with other compounds containing specific functional groups to expand the structural dimension of molecules, thereby creating substances with novel structures and properties.
    In the field of materials science, this compound also shows extraordinary potential. Due to its structure endowing special electrical and optical properties, it can be used to prepare photovoltaic device materials. Such as organic Light Emitting Diode (OLED), organic solar cells, etc. In OLED, it can be used as a light-emitting layer material, which can emit light efficiently when excited by electricity, providing the possibility to achieve high-brightness and high-resolution display. In organic solar cells, it can participate in the process of light absorption and charge transfer, improve the photoelectric conversion efficiency of the battery, and open a new window for energy conversion, helping the development of renewable energy.
    The field of drug research and development is also inseparable from 2-%284-fluorophenyl%29-5-%28%285-iodo-2-methylphenyl%29methyl%29thiophene. Its structure may be compatible with some biological activity checking points and can be optimized as a lead compound. Medicinal chemists aim to develop new drugs with high efficiency and low toxicity by modifying its structure and adjusting the interaction with biological targets. This process is like exploring an unknown sea of medicines. Starting with this compound, we continue to try and improve, hoping to find a cure for a specific disease and contribute to human health and well-being.
    What are the physical properties of 2- (4-fluorophenyl) -5- (5-iodo-2-methylphenyl) methyl) thiophene
    2-%284-fluorophenyl%29-5-%28%285-iodo-2-methylphenyl%29methyl%29thiophene is an organic compound with unique physical properties.
    The appearance of this compound may be solid, and the color may vary depending on the purity and crystalline form. Its melting point is crucial for identification and purification, and the melting point is determined by intermolecular forces, such as van der Waals forces, hydrogen bonds, etc. The presence of atoms such as fluorine and iodine in the molecule, or the interaction between molecules is enhanced, causing the melting point to rise.
    In terms of solubility, it may behave differently in organic solvents. In view of its hydrophobic structure containing benzene ring and thiophene ring, it may have good solubility in non-polar organic solvents such as toluene and dichloromethane; in polar solvents such as water, the solubility may be poor, because it is difficult to form an effective interaction between water and the compound.
    Density is also an important physical property, and its size depends on the molecular weight and the way of molecular accumulation. The molecule of this compound contains iodine atoms, and the relative mass of iodine atoms is large, or the density of the compound is high.
    In addition, the compound has certain volatility, but due to strong intermolecular forces, volatility or low. At room temperature and pressure, or only a small amount of molecules escape from the liquid or solid surface.
    The physical properties of this compound have a great impact on its application in organic synthesis, materials science and other fields. For example, in organic synthesis, the melting point and solubility determine the choice of reaction conditions; in materials science, density and volatility are related to material properties and stability. Therefore, it is of great significance to clarify the physical properties of this compound for its research and application.
    What are the synthesis methods of 2- (4-fluorophenyl) -5- (5-iodo-2-methylphenyl) methyl) thiophene
    Prepare 2 - (4 - fluorophenyl) -5 - ((5 - iodophenyl - 2 - methylphenyl) methyl) thiophene according to the following ancient method.
    First take 4 - fluorophenylboronic acid and a halide containing thiophene structure, and start with a palladium-catalyzed Suzuki coupling reaction. In the reactor, put an appropriate amount of base, such as potassium carbonate, to provide an alkaline environment. Then add an organic solvent, such as a mixture of dioxane and water, so that the substrate can be uniformly dispersed. When heated to a suitable temperature, such as 80-100 ° C, the palladium catalyst can effectively promote the coupling of the two to form a thiophene intermediate containing 4-fluorophenyl. The obtained intermediate is alkylated at
    times. Take 5-iodine-2-methylbenzyl halide and place it in the reaction system with the intermediate. Add an appropriate amount of base, such as sodium hydride, to activate the specific position of the intermediate. In an anhydrous organic solvent such as tetrahydrofuran, benzyl is successfully introduced into the 5-position of thiophene at low temperature (such as 0-5 ° C) to obtain the target product 2- (4-fluorophenyl) -5 - ((5-iodo-2-methylphenyl) methyl) thiophene.
    After the reaction is completed, a conventional separation and purification method, such as column chromatography, is used to obtain a suitable eluent, and the product is separated from the reaction mixture to obtain a pure target product. The whole process needs to pay attention to the precise control of the reaction conditions to improve the yield and purity of the product.
    2- (4-fluorophenyl) -5- ((5-iodo-2-methylphenyl) methyl) thiophene market prospects
    2-%284-fluorophenyl%29-5-%28%285-iodo-2-methylphenyl%29methyl%29thiophene, this is the name of an organic compound. According to its name, it can be known that the thiophene ring with a specific substituent structure. When it comes to market prospects, it needs to be viewed from multiple perspectives.
    Looking at the field of scientific research, organic compounds are of great significance in materials science and pharmaceutical chemistry. The unique structure of this compound may have special photoelectric properties, and it is a promising opportunity for cutting-edge materials such as organic Light Emitting Diode (OLED) and organic photovoltaic cells. Researchers often look for new compounds to improve material properties. If this compound is proved to have unique electrical and optical properties, it will attract attention in academic and applied research and lay the foundation for its market development.
    Looking at drug development, specific structural organic compounds may be potential drug lead compounds. 5-Iodine-2-methylphenyl and 4-fluorophenyl substituted thiophene structures, or interact with specific targets in organisms, have antibacterial, anti-inflammatory, anti-tumor and other biological activities. If the activity is confirmed by pharmacological experiments, pharmaceutical companies may invest in its research and development to develop innovative drugs, and the market potential is huge.
    However, its marketing activities also have challenges. In terms of synthesis, complex structures or synthetic steps are many, the cost is high, large-scale production is restricted, the cost cannot be reduced, and the market competitiveness is weak. And before new compounds enter the market, safety and Environmental Impact Assessments are essential. If the assessment finds that they are harmful to the human body or the environment, even if the performance is superior, it will be difficult to obtain market recognition.
    In summary, 2-%284-fluorophenyl%29-5-%28%285-iodo-2-methylphenyl%29methyl%29thiophene has potential opportunities in scientific research and drug development due to its unique structure, but in order to achieve a good market prospect, it is necessary to overcome the problems of synthesis cost, safety and environmental protection assessment.
    2- (4-fluorophenyl) -5- ((5-iodo-2-methylphenyl) methyl) thiophene in the use of what are the precautions
    2-%284-fluorophenyl%29-5-%28%285-iodo-2-methylphenyl%29methyl%29thiophene, it is an organic compound. During use, many matters need to be paid attention to.
    Bear the brunt and be safe to the most serious. This compound may be toxic and irritating, and safety procedures must be strictly followed when operating. In front of appropriate protective equipment, such as laboratory clothes, gloves, goggles, to prevent skin and eye contact. If you come into contact, rinse with plenty of water quickly and seek medical attention in time. And it should be operated in a well-ventilated manner to avoid inhaling its volatile aerosols to prevent damage to the respiratory system.
    Secondly, storage should not be ignored. It needs to be stored in a cool, dry and ventilated place, away from fire and heat sources, to avoid dangerous reactions. At the same time, it should be stored separately from oxidizing agents, acids, alkalis, etc., to prevent mutual deterioration or danger.
    Furthermore, accurate measurement and operation steps during use are extremely critical. According to experimental or production requirements, accurately measure the required amount to avoid poor results due to deviations in quantity. The operation process should strictly follow the established process and must not be changed at will to ensure the smooth progress of the reaction and product quality.
    In addition, waste disposal should not be underestimated. The used residue should not be discarded at will, and must be properly disposed of in accordance with relevant regulations to prevent environmental pollution.
    In short, when using 2-%284-fluorophenyl%29-5-%28%285-iodo-2-methylphenyl%29methyl%29thiophene, all aspects such as safety, storage, operation and waste disposal should be treated with caution and should not be sloppy at all.
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