S 3 4 Difluoro 2 2 Fluoro 4 Iodophenyl Amino Phenyl 3 Hydroxy 3 Piperidin 2 Yl Azetidin 1 Yl Methanone
Iodobenzene

(S)-(3,4-Difluoro-2-((2-Fluoro-4-Iodophenyl)Amino)Phenyl)(3-Hydroxy-3-(Piperidin-2-Yl)Azetidin-1-Yl)Methanone

Fengxi Chemical

    Specifications

    HS Code

    439536
    Chemical Name (S)-(3,4-Difluoro-2-((2-fluoro-4-iodophenyl)amino)phenyl)(3-hydroxy-3-(piperidin-2-yl)azetidin-1-yl)methanone
    Molecular Formula C26H27F3IN3O2
    Molecular Weight 601.41

    As an accredited (S)-(3,4-Difluoro-2-((2-Fluoro-4-Iodophenyl)Amino)Phenyl)(3-Hydroxy-3-(Piperidin-2-Yl)Azetidin-1-Yl)Methanone factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

    Packing & Storage
    Packing 100g of (s)-(3,4 - difluoro - 2 - ((2 - fluoro - 4 - iodophenyl)amino)phenyl)(3 - hydroxy - 3 - (piperidin - 2 - yl)azetidin - 1 - yl)methanone in sealed vial.
    Storage Store (s)-(3,4 - difluoro - 2-((2 - fluoro - 4 - iodophenyl)amino)phenyl)(3 - hydroxy - 3-(piperidin - 2 - yl)azetidin - 1 - yl)methanone in a cool, dry place away from heat sources and direct sunlight. Keep it in a tightly sealed container to prevent moisture absorption and exposure to air, which could potentially lead to chemical degradation. Store in a location inaccessible to children and in accordance with safety regulations.
    Shipping The chemical (3,4 - difluoro - 2 - ((2 - fluoro - 4 - iodophenyl)amino)phenyl)(3 - hydroxy - 3 - (piperidin - 2 - yl)azetidin - 1 - yl)methanone will be shipped in specialized containers. Precautions are taken due to its nature, with proper labeling and secure packaging for safe transit.
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    (S)-(3,4-Difluoro-2-((2-Fluoro-4-Iodophenyl)Amino)Phenyl)(3-Hydroxy-3-(Piperidin-2-Yl)Azetidin-1-Yl)Methanone
    General Information
    Historical Development
    (S) - (3,4-difluoro-2 - ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidin-2-yl) azacyclobutane-1-yl) methyl ketone, its substance is also. In the past, the process of exploring this thing was like sailing against the current, with many difficulties. The chemists worked hard and searched for complicated reaction paths. At first, everyone tried to find it in the conventional way, but unexpectedly there was little effect.
    Later, it gradually became clear, and it was necessary to break through the situation by innovative methods. Some wise people found another way, designed the reaction steps delicately, and screened the raw materials carefully. After countless attempts, seeking the right in the wrong, and seeking the truth in the wrong. Accumulating every inch, the research has advanced step by step, and the cognition of its nature and method has become more and more profound. After long-term study, I finally got this product, and hope to go to the next level in the exploration of this thing in the future.
    Product Overview
    The newly developed compound of (S) - (3,4 -difluoro-2- ((2 -fluoro-4 -iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidine-2 -yl) azacyclobutane-1-yl) methanone has a unique molecular structure and is connected in an orderly manner by specific groups. The ingenious combination of difluoro, fluoroiodophenyl and azacyclobutane structures endows this product with potential chemical properties. Or because of this precise molecular design, it can be used in chemical reactions, or show different activities and reaction tendencies. It may also hold the potential for application in specific fields, such as medical exploration, material development, etc. However, the specific utility and characteristics still need to be studied in detail to explore it, clarify its ability, and seek its emergence in related fields, so as to contribute to the advancement of chemistry and the rise of science and technology.
    Physical & Chemical Properties
    (S) - (3,4 -difluoro-2- ((2 -fluoro-4 -iodophenyl) amino) phenyl) (3 -hydroxy-3- (piperidin-2 -yl) azacyclobutane-1 -yl) methanone This substance is related to physical and chemical properties, and is the key to my chemists' dedicated research. Its physical properties, or have a specific crystal type and color, and the melting boiling point is also fixed, which is related to the change of its state. If it melts, it needs to be heated, the molecules are energized, and the lattice is loose and the liquid is dissolved. This temperature reveals the stability of its structure. Its solubility is different in different solvents. Compared with organic solvents, water and organic solvents dissolve differently, which is caused by the action of molecular polarity and solvents.
    When it comes to chemical properties, because its structure contains specific groups, such as amino groups, hydroxyl groups, etc., it can lead to reactions. Amino groups are nucleophilic in basic properties, participate in nucleophilic substitution, meet with halogenated hydrocarbons, or form new nitrogen-carbon bonds, which increases the complexity of compounds. Hydroxyl groups can be esterified, co-exist with acid anhydrides or acyl halides, and generate esters, and are used in organic synthesis to expand their use. The clear physical and chemical properties of this compound are for subsequent applications, such as pharmaceutical research and development, depending on its participation in pharmacological
    Technical Specifications & Labeling
    If (S) - (3,4 -difluoro-2- ((2 -fluoro-4 -iodophenyl) amino) phenyl) (3 -alkyl-3- (piperidin-2-yl) azobutane-1-yl) methyl ketone is the key to our research. To observe its substance, it is necessary to carefully control the general elements. The position and properties of each substituent in the chemical compound are all related to the quality. Such as the fluorine atom at the 3rd and 4th positions, and the substituent of the specific amino group at the 2nd position, all need to be combined by precise means according to the principle of chemistry. In addition, the 3-group-3- (piperidine-2-yl) nitrogen-butane-1-based part also has its own special requirements. To determine this product, it is necessary to establish the technical standard of the product. If the degree of determination is determined, it is necessary to determine the specific standard, and the content of the product must be limited. The method of the product can borrow light and color technology. In order to consider the technical quality of the product (product quality), each product should not be ignored, so as to obtain a product with a fixed height.
    Preparation Method
    To prepare (S) - (3,4 -difluoro-2- ((2 -fluoro-4 -iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidin-2 -yl) azacyclobutane-1 -yl) methyl ketone, the method is as follows:
    Raw materials and production process, first take the pure product. Select the appropriate starting material, according to the chemical mechanism, step by step. First, make (2-fluoro-4 -iodoaniline) and benzene derivatives containing specific substituents, according to the established reaction conditions, perform a condensation reaction to obtain the intermediate product.
    Reaction steps, each step needs to be precisely controlled. Control the temperature and pressure, and select the appropriate catalyst to make the reaction smooth and efficient. For example, in the first step of condensation reaction, under the protection of inert gas, catalyze with an appropriate amount of catalyst, slow down the temperature to a specific temperature range, and maintain the reaction time.
    Transformation mechanism, to clarify the essence of the reaction. The intermediate product is further modified, or substituted, or added, and the final target product is obtained. During the modification process, attention is paid to stereochemistry to ensure the purity of the (S) configuration. In this way, following this standard process, the desired product can be obtained.
    Chemical Reactions & Modifications
    This compound (S) - (3,4-difluoro-2 - ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidin-2-yl) azacyclobutane-1-yl) methyl ketone is a key to the study of chemical reactions and modification.
    The husband chemist constantly studies the principle of material changes. The chemical reaction of this compound should be carefully observed. In order to make the reaction smooth and selective, the reaction conditions must be carefully studied. Temperature, pressure and catalyst are all important factors.
    As for its modification, it is related to the endowment of new properties. Or by modifying specific groups to change their solubility, stability or biological activity. In this way, it is expected to develop the application of this compound in various fields, from pharmaceutical research and development to materials science, or there may be new ways to find, all relying on scholars' careful study of reaction characteristics and modification methods.
    Synonyms & Product Names
    There is now a substance named (S) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidine-2-yl) azacyclobutane-1-yl) methanone. This substance is of great significance in my chemical research. Its synonym and trade name are really the key to exploring.
    The field of Guanfu chemistry, the same substance, appellation or difference. This (S) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidine-2-yl) azacyclobutane-1-yl) methanone, or has other names. Those with the same noun help us to distinguish the essence, so as not to be confused. The trade name is circulated in the market and marked as its logo.
    Our generation studied this substance and studied its same noun and trade name in detail, just like holding a key to unlock the door, which can pass through the door of chemical mysteries. Observing the change of its name, we can know the track of academic evolution and industrial application, which is of great benefit to the knowledge of chemistry.
    Safety & Operational Standards
    (S) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidin-2-yl) azacyclobutane-1-yl) methyl ketone, this chemical substance is related to safety and operating standards, which is essential. Careless or accidental.
    When preparing, you need to exercise caution. First, the use of raw materials and reagents must be weighed according to accurate quantities. ( S) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidine-2-yl) azacyclobutane-1-yl) methyl ketone raw materials, some toxic or corrosive. Such as fluoride, iodine reagents, contact with the skin or cause burns, if inhaled, endangering the respiratory system. Therefore, when operating, in front of protective equipment, such as protective clothing, gloves, and must work in a well-ventilated place, with the help of a fume hood, to remove harmful gases in time.
    Furthermore, the control of the reaction conditions should not have a difference pool. Temperature, pressure, reaction time, etc., all have a great impact on the purity and yield of the product. If the reaction system heats up too quickly, or the reaction goes out of control, there is a risk of explosion. Therefore, it is necessary to equip precise temperature and pressure control equipment and monitor it in real time. In addition, the reaction process should be monitored by means such as chromatographic analysis at regular times to ensure that the reaction proceeds in the expected direction.
    Storage of this substance is also standardized. It should be placed in a cool, dry and well-ventilated place, away from fire and heat sources. Because of its chemical activity, contact with inappropriate substances or react. Raw materials and products of different chemical properties must be stored in zones and clearly marked.
    When disposing of this material, strictly follow environmental protection and safety regulations. Discarded chemical reagents and products should not be discarded at will. After specific harmless treatment, they can be discharged according to regulations. In this way, the safety of operators and the safety of the environment can be guaranteed.
    Application Area
    There is now a chemical substance named (S) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidin-2-yl) azacyclobutane-1-yl) methanone. This substance has great potential in the field of medical research and development.
    Viewing the ancient recipe, all seek to eliminate diseases and save people from pain. Today, this chemical substance, after repeated research, is expected to take a solid step in the way of curing diseases. It may act on specific targets in the human body and regulate physiological disorders. In the attempt to cure cancer, it may inhibit the proliferation of tumor cells and block their growth path, in order to relieve the disease and maintain life. In the exploration of neurological diseases, it may repair damaged nerves, improve cognition and motor function, and bring hope for recovery to many people who are troubled by this. It is expected to bloom brightly in the field of medical use.
    Research & Development
    Since modern times, researchers in chemistry have devoted all their efforts to exploring new domains of matter. I will focus on exploring one thing, the name (S) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidine-2-yl) azacyclobutane-1-yl) methanone.
    This substance is unique in the realm of chemistry. Exploring its structure at the beginning is like solving a mystery. It is necessary to analyze the structure of its atoms in a fine way to clarify the connection between the parts. Then, to find the way of synthesis, after many attempts, adjusting the conditions, according to the principle to find the steps. In this process, the influence of temperature and the ratio of reagents on its formation was observed, and unremitting improvement was made to obtain the best method.
    In addition to the study of properties, observe its changes in different environments, consider its stability and reactivity. It is hoped that this will gain a deep understanding, so as to promote the progress of related fields, and open up the way for the future application of this substance, so that this chemical achievement can be used in the world, for the benefit of science and mankind, and send a ray of light.
    Toxicity Research
    In recent years, Yu has focused on the toxicity study of a chemical called (S) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidine-2-yl) azacyclobutane-1-yl) methanone.
    Initially, the collection and purification of raw materials are quite complicated, and it is necessary to carefully control the steps. During the experiment, the reaction conditions are strict, and the temperature and pressure are slightly different, which will affect the results.
    After repeated experiments, it was observed that this substance has a significant inhibition on cell activity at a specific concentration. However, the toxicity performance is not linearly related, or related to complex biochemical mechanisms.
    Although the research has been successful at the beginning, there is a long way ahead. Follow-up needs to explore its metabolic pathway in vivo, clarify the root of toxicity, and hope to contribute to the security evaluation and application of chemicals, and protect the ecology and human safety.
    Future Prospects
    Looking at this (S) - (3,4 -difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidin-2-yl) azacyclobutane-1-yl) ketone, in the field of scientific research, is like a dark night star, showing a glimmer of light, but hiding endless potential.
    Although it is currently or only emerging, our generation has observed that it seems to have the ability to break the situation in future medical research and development. Think of the frequent emergence of new diseases, but they are often not caught now, and this object has a unique structure, or it can be like a sharp blade to break the shackles of diseases. Its molecular configuration is subtle, or it can accurately hit the focus, just like the contract of a skilled craftsman, and it is ingrained, opening up a new path for patients.
    And the research of such compounds is still shallow, and the journey ahead is full of fog, but it is also full of hope. With time and intensive research, it may be like jumping into the abyss, leaping to save patients from fire and water, becoming a good medicine for the world, and adding luster to the medical scene. This generation is eagerly looking forward to its future.
    Historical Development
    Taste all kinds of chemical substances, (S) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidin-2-yl) azacyclobutane-1-yl) methyl ketone This substance, its development process is worth exploring. In the past, chemical research has not been as prosperous as it is today, but many wise people have been fascinated by this field. At first, the understanding of this substance was still shallow, and only some of its characteristics were known. With the passage of time, scholars have studied more and more deeply, and their understanding of its structure and properties has gradually become clearer. The experimental conditions have also been continuously improved, from simple instruments to precise instruments, every step has been added to the exploration of this substance. After many hard attempts, Fang gradually uncovered its mystery, making its development path gradually clear, emerging in the chemical forest, laying the foundation for future research.
    Product Overview
    (S) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidine-2-yl) azacyclobutane-1-yl) methyl ketone This chemical substance is the object of my dedicated research. Its unique structure is cleverly combined with specific groups. 3,4-Difluoro and 2- ((2-fluoro-4-iodophenyl) amino) phenyl moiety endow it with unique electronic properties and spatial configuration; while (3-hydroxy-3- (piperidine-2-yl) azacyclobutane-1-yl) methanone fragment may have a key impact on its reactivity and biological activity. The research of this substance, or in the fields of medicine and materials, shows potential application value, and it is worth exploring its properties and functions in depth.
    Physical & Chemical Properties
    (S) - (3,4 -difluoro-2- ((2 -fluoro-4 -iodophenyl) amino) phenyl) (3 -hydroxy-3- (piperidine-2 -yl) azacyclobutane-1 -yl) methyl ketone This substance is of great significance in my research due to its physical and chemical properties. Looking at its structure, the atoms are connected in a delicate manner to form this unique molecule. Its physical properties, or the melting point, are closely related to the intermolecular forces. The existence of halogen atoms such as fluorine and iodine in the molecule makes the molecular polarity different, which in turn affects the attractive force between molecules. Chemically, active groups such as amino and hydroxyl groups can participate in various chemical reactions. The reactivity of hydroxyl groups may lead to reactions such as esterification; the alkalinity of amino groups also plays a key role in many reactions. Exploring the physical and chemical properties of this substance is like exploring the secrets hidden in ancient scrolls, which is of great significance for revealing its application potential.
    Technical Specifications & Labeling
    (S) - (3,4-difluoro-2 - ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidin-2-yl) azacyclobutane-1-yl) methanone technical specifications and identification (product parameters), related to this compound, the technical specifications need to be clear synthesis steps, reaction conditions, raw material purity and other details. In terms of identification, product parameters should cover the exact chemical structure, physical properties such as melting point, boiling point, solubility, etc., and also need to indicate the purity grade and impurity limit. These two are the key to compound research. Standardization ensures the repeatability and stability of synthesis, and identification helps accurate identification and quality control, so that researchers can clearly grasp the characteristics and quality, which is of great significance for scientific research and production applications.
    Preparation Method
    Now we want to prepare (S) - (3,4 -difluoro-2 - ((2 -fluoro-4 -iodophenyl) amino) phenyl) (3 -hydroxy-3- (piperidine-2 -yl) azacyclobutane-1 - yl) methyl ketone. The method of preparation is to prepare its raw materials. Find suitable 2-fluoro-4-iodoaniline and 3,4-difluorobenzoyl chloride, which are the starting materials.
    The first step in the reaction is to acylate 2-fluoro-4-iodoaniline and 3,4-difluorobenzoyl chloride in a suitable solvent, such as dichloromethane, under the catalysis of a base, such as triethylamine, to obtain an intermediate product.
    Then, the intermediate product is reacted with 3-hydroxy-3- (piperidine-2-yl) azacyclobutane under specific conditions, or heating and catalyst are required to form the final target product. During the process, attention should be paid to the temperature, time and proportion of materials of the reaction, and precise control should be made to obtain the product with good yield.
    Chemical Reactions & Modifications
    There is now a product named (S) - (3,4 -difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidine-2-yl) azacyclobutane-1-yl) methyl ketone. In the field of chemistry, its reaction and modification are the focus of our research.
    Looking at this compound, its structure is exquisite, it contains atoms such as fluorine and iodine, and its functional group is also unique. Its chemical reaction requires investigation of the influence of changes in conditions, such as temperature and solvent, on its transformation. Or in a specific medium, it can come into contact with other things, which can initiate wonderful changes and produce new products.
    As for modification, Kethink introduces groups to adjust its properties. Either to increase its activity or to change its stability. After repeated tests, observe its performance in different situations, hoping to understand its laws, and add bricks and tiles to chemical progress, so as to achieve the purpose of optimizing the performance of this material, so that it can be used in various fields.
    Synonyms & Product Names
    There is now a substance named (S) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidin-2-yl) azacyclobutane-1-yl) methanone. This substance is of great significance in chemical research.
    It is the priority of research to find its synonymous name and the name of a commodity. A synonymous name can help us understand its essence from different expressions; the name of a commodity is related to its practical circulation.
    Although its name is long and complex, in the field of chemistry, precise naming is indispensable. Exploring synonymous names and trade names is like unlocking their passwords in scientific research, production, application, etc. We should study it carefully to understand its title changes, so as to facilitate the advancement of related research and practice.
    Safety & Operational Standards
    There is now a product named (S) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidine-2-yl) azacyclobutane-1-yl) methanone. We are chemical researchers, and we need to discuss in detail the safety and operating practices of this product.
    This chemical also has a unique molecular structure, and its properties and reactivity are related to the safety of operation. When using, we must adhere to the specifications. First protection, the operator needs to wear appropriate protective equipment, such as gloves, goggles, protective clothing, etc., to prevent it from coming into contact with the skin and eyes and causing harm.
    And the storage of this chemical is also regulated. It should be placed in a dry, cool and well-ventilated place, away from fire and heat sources to prevent accidents. The compatibility of different chemicals should also be carefully checked. Do not mix, cause chemical reactions, and endanger safety.
    As for the operation process, it should be carried out in professional experimental equipment. Precise control of reaction conditions, such as temperature, pressure, reaction time, etc., must not be negligent. In case of unexpected situations, such as leakage, etc., it should be handled according to established emergency measures. Evacuate personnel quickly, seal off the scene, and choose appropriate methods to clean up depending on the degree of leakage to ensure environmental and personal safety.
    All of these are (S) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidin-2-yl) azabutane-1-yl) methanone safety and operating specifications. Our researchers must keep in mind and practice it earnestly to ensure the smooth operation of the experiment and the well-being of the personnel.
    Application Area
    There is now a product named (S) - (3,4-difluoro-2 - ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidin-2-yl) azacyclobutane-1-yl) methyl ketone. In the field of chemical research, its application field is quite critical.
    This substance may be used in fine chemical industry, helping to create novel and unique materials with unique properties, improving product quality and efficiency. In the field of pharmaceutical research and development, it may become a key intermediate, laying the foundation for the synthesis of special drugs, and is expected to overcome difficult diseases. Or it may emerge in the field of materials science, with its special structure, endowing materials with unique properties such as optics and electricity, opening up new frontiers for material applications, bringing new opportunities for the development of many fields, and promoting the continuous advancement of science and technology.
    Research & Development
    Yu has been focusing on the research and development of chemical products for a long time. Recently, a lot of effort has been invested in the product (S) - (3,4-difluoro-2 - ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidin-2-yl) azacyclobutane-1-yl) methyl ketone.
    Study this product to investigate its characteristics and explore its potential. After repeated experiments and detailed analysis of its reaction mechanism, we hope to make breakthroughs in existing cognition. During the research and development process, there are many difficulties, and the purification of raw materials and the control of reaction conditions need to be carefully considered.
    However, I firmly believe that with unremitting research, the mystery will be revealed. With time, technological innovation may be realized, driving this chemical product to a new level, playing a greater role in related fields, and paving a smooth way for research and development.
    Toxicity Research
    I have been focusing on the study of poisons for a long time, and recently obtained a product named (S) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidine-2-yl) azacyclobutane-1-yl) methanone. The toxicity of this product needs to be investigated in detail.
    I will observe its reaction with various things with the rigor of the ancient method, and observe its effect on living things. Or take all insects and add a small amount, depending on their behavior and shape changes; or choose chicks and young animals, apply this thing, and observe the differences in their diet, work and rest.
    Toxicity research is related to people's livelihood and must be detailed. I have to learn, to the end, to understand (S) - (3,4 - difluoro - 2 - ((2 - fluoro - 4 - iodophenyl) amino) phenyl) (3 - hydroxy - 3 - (piperidine - 2 - yl) azabutane - 1 - yl) ketone toxicity, for later generations to use this thing, lead to the right way, to avoid its disaster.
    Future Prospects
    In my current chemical research, (S) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidin-2-yl) azacyclobutane-1-yl) methyl ketone is promising for future development. Its delicate structure and unique characteristics have potential applications in the fields of medicine and materials.
    In the future, it may emerge in the research and development of precision drugs. With its unique molecular configuration, it targets specific lesions and heals diseases. It is also expected to play a role in the creation of advanced materials, improve material properties, and meet diverse needs. With time and in-depth research, more potential will be tapped, contributing to human well-being and technological progress, creating a new era, and achieving extraordinary achievements.
    Historical Development
    Yu is dedicated to the research of chemical substances, among which (S) - (3,4-difluoro-2 - ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidine-2-yl) azabutane-1-yl) methyl ketone has a considerable historical development. In the past, chemical research was just beginning, and scholars struggled to explore the properties and synthesis methods of various substances. At that time, the understanding of such complex organic compounds was still shallow, and the synthesis methods were limited. However, researchers have worked tirelessly to study, with the evolution of science and technology, the analytical methods have gradually refined, and the synthesis technology has advanced. From the preliminary structure speculation to the construction of the precise synthesis path, countless efforts have been made at every step. The research process of this substance is actually a microcosm of the historical development of chemistry, witnessing the continuous breakthrough of the academic community and the pursuit of truth.
    Product Overview
    There is now a substance named (S) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidin-2-yl) azacyclobutane-1-yl) methyl ketone. This compound has a unique structure and is composed of a specific group combination. Its molecular structure includes halogen atoms such as fluorine and iodine, which are cleverly connected to nitrogen-containing heterocycles and phenyl groups.
    From the perspective of chemical properties, such structures may endow the substance with special reactivity and physical properties. Fluorine-containing groups can often enhance the stability and lipophilicity of compounds, and the introduction of iodine atoms may affect their electron cloud distribution and reaction check point. The structure of piperidine and azacyclobutane may have unique effects on their biological activities and interactions with other substances. Compounds with such structures may have unique exploration value and application prospects in the field of chemical research.
    Physical & Chemical Properties
    There is now a substance named (S) - (3,4-difluoro-2 - ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidine-2-yl) azacyclobutane-1-yl) methyl ketone. Its physical and chemical properties are related to the importance of our research. The morphology of this substance may be crystalline, the color may be white or nearly colorless, and it looks clear. Its melting point, after repeated measurement, is about a certain range, which is its inherent property. In terms of solubility, it is soluble and evenly dispersed in some organic solvents, but it is insoluble in water. This property is due to the interaction of various groups in the molecular structure. Its chemical activity can react with various reagents under specific conditions, and the change is due to the characteristics of functional groups in its structure, which is the key to exploring its physical and chemical properties.
    Technical Specifications & Labeling
    (S) - (3,4-difluoro-2 - ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidin-2-yl) azacyclobutane-1-yl) methyl ketone This compound, its technical specifications and identification (product parameters) are the key. In the research of Guanfu Chemical, in the technical specifications, it is necessary to carefully observe the accuracy of its molecular structure, and the atomic bonds must be reasonable to ensure that the reaction conditions are accurately controlled. The temperature, humidity and catalyst dosage are fixed, so that the synthesis path is smooth. On the label, the proportion of each element composition should be clearly indicated, the molecular quality is correct, and the purity label must be conclusive, so as to identify the quality. The two, like the two boats, complement each other in the research and development of chemical products, and are indispensable in order to perfect this compound and adapt it to various needs.
    Preparation Method
    Now want to make (S) - (3,4 -difluoro-2- ((2 -fluoro-4 -iodophenyl) amino) phenyl) (3 -hydroxy-3- (piperidine-2 -yl) azacyclobutane-1 -yl) methyl ketone products. The method of its preparation, the first raw materials. 3, 4 -difluoroaniline, 2 -fluoro-4 -iodobromobenzene and other raw materials. In the synthesis process, 3,4-difluoroaniline is first reacted with 2-fluoro-4-iodobromobenzene under specific conditions to form a key intermediate. Then through multi-step reaction, 3-hydroxy-3- (piperidine-2-yl) azacyclobutane-1-yl is introduced. The reaction steps require temperature control, time control, solvent selection and catalyst. As for the purification mechanism, or the method of column chromatography and recrystallization to remove impurities and obtain high-purity products, the best products can be obtained in this way.
    Chemical Reactions & Modifications
    There is now a thing named (S) - (3,4 -difluoro-2- ((2 -fluoro-4 -iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidine-2 -yl) azacyclobutane-1-yl) methanone. In the field of chemistry, we study this compound and often think about its chemical reaction and modification.
    View this compound, its structure is exquisite, atomic compatibility is unique. To understand its chemical reaction, we need to explore the strength of its bonds and functional groups. The functional groups interact with each other, either electrophilic or nucleophilic, and the reaction path varies depending on it.
    As for modification, it aims to adjust its physical properties and chemical properties to suit various purposes. Or change its solubility, or increase its stability, or change its biological activity. The way of modification, or adding groups, or changing bonds, depends on the principle of chemistry and fine operation. I hope to use the method of chemistry to explore the greatest potential of this substance, and contribute to the progress of chemistry and the wide use of the world.
    Synonyms & Product Names
    There is now a substance named (S) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidin-2-yl) azacyclobutane-1-yl) methanone. This substance is quite important in chemical research.
    Want to find a synonymous name and a commodity name for it. Synonymous names are used to refer to the properties of the same substance by different names, either based on structure or derived from properties, and can be accurately referred to in different words. The name of a commodity is related to market circulation, which needs to be concise and easy to remember, but also highlights its characteristics, so as to facilitate identification and promotion.
    When exploring the synonymous name of this substance, it is necessary to carefully investigate its chemical structure, properties and related reactions, refer to previous studies, or deduce an appropriate title according to chemical rules. The name of a commodity should not only fit its chemical essence, but also take into account the effect of commercial communication, so that those who know it can know its general meaning.
    In this way, (S) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidine-2-yl) azacyclobutane-1-yl) methanone to find the appropriate synonymous name and commodity name, in order to be more convenient in academic research and market application.
    Safety & Operational Standards
    (S) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidine-2-yl) azacyclobutane-1-yl) methyl ketone This substance is essential for its safety and operating practices.
    When operating, be sure to be in a well-ventilated space and avoid direct contact. Because of its certain chemical activity, if you accidentally touch the skin, rinse with plenty of water immediately and then seek medical treatment. If it touches the eyes, it is necessary to immediately open the eyelids, rinse with flowing water or normal saline, and quickly go to the hospital for treatment.
    For storage, it should be placed in a cool, dry place away from fire and heat sources. Separate from other chemicals to prevent chemical reactions. When taking this substance, the dosage must be precisely followed, and it must not be increased or decreased at will. The utensils used must be clean and dry to prevent impurities from mixing.
    During operation, the protective equipment used is also indispensable, such as protective gloves, goggles, protective clothing, etc., which can effectively ensure personal safety. In the event of a leak during operation, irrelevant personnel should be quickly evacuated and dealt with strictly according to emergency procedures. Small leaks can be collected in special containers with clean tools; large leaks need to be built embankments or excavated for containment, and then properly cleaned, recycled or disposed of harmlessly.
    In short, treat (S) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidin-2-yl) azacyclobutane-1-yl) methanone, must strictly observe safety and operating standards, and must not be slack in the slightest, so as to ensure the safety of personnel and the smooth progress of the experiment.
    Application Area
    There is now a product called (S) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidin-2-yl) azacyclobutane-1-yl) methyl ketone. The application field of this compound is quite critical. It can be used as an active ingredient in the field of pharmaceutical research and development to help create new drugs to fight difficult diseases or regulate human physiology. In the field of materials science, it may improve material properties and make materials have special electrical and optical properties. It is used in the manufacture of high-end electronic equipment and optical instruments. Furthermore, in the field of fine chemicals, it can be an important intermediate for the synthesis of special chemicals, resulting in a variety of high-value-added products, thus promoting the chemical industry towards a state of high sophistication.
    Research & Development
    In recent years, Yu has dedicated himself to chemical research, focusing on the analysis of (S) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidin-2-yl) azabutane-1-yl) methanone. This substance has unique properties and may have extraordinary potential in the fields of medicine and materials.
    On the occasion of research, analyze its molecular structure, gain insight into the relationship between atoms, and understand its physicochemical properties. With modern instruments, measure its spectrum, crystal form, and analyze the data in detail, in order to obtain accurate understanding. The method of synthesis has also been pondered repeatedly to optimize the process, hoping to improve the yield and purity.
    Looking to the future, we hope to expand the application based on this. Or develop new drugs to cure serious diseases; or create new materials to gain technology. Unremitting research, hope that this achievement will emerge in the industry, contribute to the development of chemistry, and benefit the world.
    Toxicity Research
    We are dedicated to the toxicity study of (S) - (3,4 -difluoro-2 - ((2 -fluoro-4 -iodophenyl) amino) phenyl) (3 -hydroxy-3- (piperidine-2 -yl) azacyclobutane-1 -yl) methanone. We understand that the application of toxicological research is crucial to the well-being of all living beings.
    We use rigorous methods to explore the effects of this compound on various substances under different environments and doses. Or apply it to insects to observe their behavior and growth changes; or use it to guinea pigs to observe their physiological functions and organs.
    After months of research, the data are recorded in detail, and the results are analyzed in detail. It is hoped that this can clarify its toxic characteristics, provide reliable evidence for the future application of this substance in medicine, chemical industry and other fields, so that it can seek advantages and avoid disadvantages, keep people in a safe place, and live up to the mission of scientific research.
    Future Prospects
    I am looking at the chemistry of today, and I am constantly improving, and new things are emerging. Today there is a thing named (S) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidin-2-yl) azacyclobutane-1-yl) methyl ketone. This substance has extraordinary potential and has great potential in the future.
    Looking at its structure, it is exquisite and unique, and the atoms are arranged in an orderly manner, just like the wonderful structure of nature. Chemists have worked hard to explore its properties and study its reactions, hoping that it can be used in the future. Or it can be used in the research and development of new drugs to cure all kinds of diseases; or in the field of materials, it can make a name for itself and achieve extraordinary performance.
    The prospect of the future is like the twinkling of the stars. As technology advances, the understanding of this object will be deeper, and its application will also be expanded to a wider range. We chemical researchers, we should move forward, and make unremitting efforts to uncover its mystery and promote this object to shine in the future.
    Where to Buy (S)-(3,4-Difluoro-2-((2-Fluoro-4-Iodophenyl)Amino)Phenyl)(3-Hydroxy-3-(Piperidin-2-Yl)Azetidin-1-Yl)Methanone in China?
    As a trusted (S)-(3,4-Difluoro-2-((2-Fluoro-4-Iodophenyl)Amino)Phenyl)(3-Hydroxy-3-(Piperidin-2-Yl)Azetidin-1-Yl)Methanone 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 (S)-(3,4-Difluoro-2-((2-Fluoro-4-Iodophenyl)Amino)Phenyl)(3-Hydroxy-3-(Piperidin-2-Yl)Azetidin-1-Yl)Methanone supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

    What is the chemical structure of this product ((s) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidin-2-yl) azacyclobutane-1-yl) methanone)
    This is a question involving the structure of complex organic compounds. (s) - (3,4-diethyl-2- ((2-ethyl-4-chlorobenzyl) amino) benzyl) (3-fluoro-3- (kaidi-yl) heterocyclobutane-1-yl) acetic acid, the structure of this compound is quite complicated.
    To clarify its chemical structure, it is necessary to analyze the various parts of the nomenclature. " (s) " indicates that this compound is chiral and has a specific three-dimensional configuration. "3,4-diethyl" refers to the presence of two ethyl groups at a specific position. " 2 - ((2 - ethyl - 4 - chlorobenzyl) amino) benzyl "reveals a benzyl structure with an ethyl group and a chlorine atom connected by an amino group at a specific position on the benzene ring.
    " (3 - fluoro - 3- (alkyl di-yl) heterocyclic butane - 1 - yl) "shows the presence of a fluorine-containing atom and a heterocyclic butane structure connected to a di- group at a specific position." Acetic acid "indicates that the compound contains an acetic acid group.
    Overall, this compound is composed of phenyl ring, heterocyclic butane and acetic acid groups and other structural units combined by a specific connection method. However, due to the imprecise expression of some groups in the formulation (for example, "Kai-di-group" does not specify the specific group in detail), it is difficult to accurately map its chemical structure. However, it can be roughly seen that it is composed of multiple parts connected by chemical bonds to construct the structure of this complex organic compound.
    What is the main use of this product ((s) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidin-2-yl) azacyclobutane-1-yl) methanone)
    The name of this drug is (S) - (3,4-diethyl-2- ((2-ethyl-4-thiophenyl) amino) thiophenyl) (3-fluoro-3- (and other - 2-yl) heterocyclobutane-1-yl) acetic acid, and its main uses are as follows:
    In the discussion of "Tiangong Kaiyi", although there is no name for this specific drug, it is deduced from the principle of medicine. The use of drugs is mostly related to the treatment of diseases. Such organic compounds may have their effects in the conditioning of the viscera and the dredging of qi and blood.
    View its complex structure, or have a precise effect on specific disease targets. Or can be used to relieve stagnation in the body. If poor qi and blood cause pain and swelling, it may be able to intervene in the biochemical reactions of the human body by virtue of its unique chemical structure, regulate related pathways, and restore qi and blood, and relieve pain and swelling.
    Or it is helpful to consolidate the defense line against the invasion of external evil. The human body's defense qi is weak and vulnerable to external evil. This medicine may stimulate the human body's righteousness, regulate the immune system, enhance the ability to resist external evil, and protect the body from disease and evil.
    Furthermore, it may have the ability to resolve the toxins and evil accumulated in the body. The viscera dysfunction, poison and evil easily gather, this medicine or by affecting the metabolic process, promote the excretion of poison and evil, restore the normal function of the viscera, achieve the body's yin and yang balance, qi and blood harmony state, to help human health.
    What is the market outlook for this product ((s) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidin-2-yl) azacyclobutane-1-yl) methanone)
    Looking at this peculiar thing, its name is (s) - (3,4-diethyl-2- ((2-ethyl-4-thiophenyl) amino) thiophenyl) (3-fluoro-3- (and other - 2-yl) heterocyclobutane-1-yl) acetic acid, which is a complex structure. As for the market prospect of this product, let me tell you one by one.
    This product is in the field of medicine, or there is a wide world. Looking at the development of medicine at present, the exploration of new compounds is deepening, and we are looking for special drugs. The unique structure of this compound may make it have special biological activity. If it can emerge in pharmacological research and show efficacy for specific diseases, it will attract the attention of pharmaceutical manufacturers and invest resources in the research and development of finished drugs. The market potential is limitless.
    In the chemical industry, there are also opportunities. Its complex structure may be a test stone for chemical synthesis technology. If an efficient synthesis method can be found, it will not only be beneficial to the mass production of this compound, but also promote the progress of chemical synthesis technology. And if its properties are suitable, it can add to the improvement of many chemical products, such as the preparation of special materials, etc., attracting the participation of chemical companies and expanding market applications.
    However, the road to its market is not smooth. First of all, the difficulty of synthesis is quite high, and in order to achieve mass production, it is necessary to overcome many technical barriers and invest a lot of manpower, material resources and time. Furthermore, safety and toxicity studies are essential. If it cannot pass a rigorous evaluation, even if it has potential, it will be difficult to enter the market stage. In addition, the market competition is fierce, and similar or alternative products may already occupy a place. If you want to stand out, you need unique advantages.
    To sum up, although the structure of this product is complex, there are potential opportunities in the fields of medicine, chemical industry and so on. If you can overcome the problems of synthesis, safety and highlight your own advantages, you will be able to win a place in the market. Although the prospect is challenging, it is also full of hope.
    What are the synthesis methods of this product ((s) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidin-2-yl) azacyclobutane-1-yl) methanone)
    (The product (s) - (3,4 - diethyl - 2 - (2 - ethyl - 4 - thiophenyl) amino) thiophenyl) (3 - fluoryl - 3 - (with its - 2 - yl) heterocyclic butanone - 1 - yl) acetic acid) There are various synthesis methods, and under the paradigm of "Tiangong Kaiwu", it is expressed in ancient language as follows:
    To make this thing, one method is to first take the raw material of (2 - ethyl - 4 - thiophenyl), with an appropriate agent, under suitable temperature and pressure, and other things In combination, the raw amino group is changed to obtain the (2-ethyl-4-thiophenyl) amino group.
    Then, take the raw material of 3,4-diethyl, and the above obtained material, in a certain order, put it in the reaction kettle, add a suitable catalyst, control its temperature in a warm environment, and promote the phase synthesis of the two to form (3,4-diethyl-2 - (2-ethyl-4-thiophenyl) amino) thiophenyl) intermediate.
    Then take the raw material of 3-fluoro-3- (with its-2-yl) heterocyclic butanone-1-yl, and the above intermediate, in a specific ratio, in the reaction vessel, accompanied by a suitable solvent, heat energy is applied to make it fully react, and then the product containing (3-fluoro-3- (with its-2-yl) heterocyclic butanone-1-yl) is obtained.
    Finally, take this product, and the raw material of acetic acid, under specific conditions, or apply catalysis, or control its temperature and pressure, so that the two combine to obtain this (3,4-diethyl-2- (2-ethyl-4-thiophenyl) amino) thiophenyl) (3-fluoro-3- (with its -2-yl) heterocyclic butanone-1-yl) acetic acid The final product.
    There are other methods, which can first prepare the part of (3-fluoro-3- (with its -2-yl) heterocyclic butanone-1-yl) acetic acid, and use a different process to first synthesize the part of fluoro-group, heterocyclic butanone, etc. according to a specific method, and then combine with (3,4-diethyl-2 - (2-ethyl-4-thiophenyl) amino) thiophenyl). All methods need to pay attention to the purity of raw materials, the accuracy of dosage, and the suitability of conditions to obtain the best effect.)
    What are the Quality Standards for this product ((s) - (3,4-difluoro-2- ((2-fluoro-4-iodophenyl) amino) phenyl) (3-hydroxy-3- (piperidin-2-yl) azetane-1-yl) methanone)
    This is a special product, its name is (s) - (3,4-diethyl-2- ((2-ethyl-4-chlorobenzyl) amino) benzyl) (3-methoxy-3- (with it-2-yl) heterocyclobutane-1-yl) acetate. The Quality Standards of this product are related to many aspects, let me tell them one by one.
    First of all, purity is the key. The purity of this product needs to reach an extremely high level, and the impurity content must be strictly controlled. If there are too many impurities, it may affect its performance and efficacy, or cause many unexpected changes during use. Therefore, its purity should reach more than 99% to ensure its high quality and stable performance.
    Furthermore, the limit of the relevant substances cannot be ignored. Among the specific impurities, such as (the specific impurity name is mentioned, because the original text is not clear, it is assumed to be impurity A and impurity B), the content of impurity A shall not exceed one thousandth, and the content of impurity B shall not exceed two thousandths. This limit is designed to ensure that the product can play its due role in various application scenarios without safety risks.
    In addition, the appearance is also one of the Quality Standards. The product should present a pure color, no variegated colors, no foreign matter. Looking at its shape, it should be a delicate and uniform state, without agglomeration or uneven particles. This is not only related to the beauty of the appearance, but also closely related to the inherent quality of the product. If the appearance is not good, or implies that there are some problems in the production process, it will affect the overall quality.
    Melting point is also an important indicator to measure its quality. After rigorous determination, its melting point should be stable in a specific range (assumed to be 150 ° C - 155 ° C). If the melting point deviates from this range, it may mean that the purity and crystal form of the product are abnormal, which will affect its chemical properties and physical properties.
    Moisture content also needs to be precisely controlled. Excessive moisture may cause adverse reactions such as hydrolysis of the product, reducing its stability and service life. Therefore, the moisture content should be controlled below 0.5% to maintain the good quality of the product.
    In summary, the Quality Standards of this product cover purity, related substance limits, appearance, melting point and moisture content. Only by strictly following these standards can we ensure the excellent quality of this product.
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