3 Iodo 4 Pyridinecarboxylic Acid Methyl Ester
Iodobenzene

3-Iodo-4-Pyridinecarboxylic Acid Methyl Ester

Fengxi Chemical

    Specifications

    HS Code

    824720

    Chemical Formula C7H6INO2
    Molecular Weight 263.03
    Appearance Solid (usually white to off - white)
    Melting Point Data needed
    Boiling Point Data needed
    Solubility In Water Low solubility
    Solubility In Organic Solvents Soluble in some organic solvents like dichloromethane, chloroform
    Density Data needed
    Pka Value Data needed
    Flash Point Data needed
    Name 3 - Iodo - 4 - Pyridinecarboxylic Acid Methyl Ester
    Molecular Formula C7H6INO2
    Molecular Weight 263.03 g/mol
    Appearance Solid (usually white to off - white powder)
    Melting Point Data may vary, needs experimental determination
    Boiling Point Data may vary, needs experimental determination
    Solubility In Water Low solubility, organic solvents may be more suitable
    Density Data may vary, needs experimental determination
    Flash Point Data may vary, needs experimental determination
    Pka Data may vary, needs experimental determination
    Chemical Formula C7H6INO2
    Molecular Weight 263.03 g/mol
    Appearance Solid (Typical appearance, may vary)
    Melting Point Data may vary, check literature
    Boiling Point Data may vary, check literature
    Solubility In Water Low solubility (general prediction)
    Solubility In Organic Solvents Soluble in some organic solvents like dichloromethane (common for such compounds)
    Density Data may vary, check literature
    Pka Data may vary, check literature
    Flash Point Data may vary, check literature

    As an accredited 3-Iodo-4-Pyridinecarboxylic Acid Methyl Ester factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

    Packing & Storage
    Packing 100g of 3 - iodo - 4 - pyridinecarboxylic acid methyl ester in sealed, labeled container.
    Storage Store 3 - iodo - 4 - pyridinecarboxylic acid methyl ester in a cool, dry place away from direct sunlight. Keep it in a tightly sealed container to prevent moisture absorption and exposure to air, which could potentially lead to degradation. It should be stored separately from incompatible substances like strong oxidizers and bases to avoid chemical reactions.
    Shipping 3 - iodo - 4 - pyridinecarboxylic acid methyl ester is shipped in well - sealed containers, compliant with chemical transportation regulations. Packaged to prevent breakage and ensure safety during transit, typically via ground or air freight depending on quantity and urgency.
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    3-Iodo-4-Pyridinecarboxylic Acid Methyl Ester
    General Information
    Historical Development
    In the past, organic synthesis was not refined, and the exploration of such compounds was fresh. And the progress of chemical technology, people began to pay attention to this. At first, the synthesis method was difficult and inefficient, and the yield was meager. After being studied by many scholars, the improved path made the synthesis more convenient and efficient. New materials and new catalysis methods have emerged, making the preparation of this compound more refined. In the past, it required cumbersome steps and high cost to achieve, but now it can be easily obtained. From this perspective, the progress of chemistry has made 3-Iodo-4-Pyridinecarboxylic Acid Methyl Ester from little known to widely prepared, regardless of academic research or industrial application, all of which have benefited from it, which shows the great power of chemical development in material generation.
    Product Overview
    Methyl 3-iodine-4-pyridinecarboxylate is a chemical product that we have studied with great care. The appearance of this substance is often white to light yellow powder, and the properties are stable. However, there are some specific requirements for environmental conditions. Its preparation requires several chemical processes, and the reaction conditions are strictly controlled. The temperature, pressure and reactant dosage must be accurate.
    In the field of organic synthesis, 3-iodine-4-pyridinecarboxylate methyl ester is widely used. Or as a key intermediate, it participates in the construction of various complex organic molecules, which has particular potential in the field of pharmaceutical research and development, or can help create new drugs, thus benefiting all living beings. We chemical researchers should carefully understand its properties and reaction mechanisms in order to fully tap its potential and contribute to the progress of the chemical field.
    Physical & Chemical Properties
    I study the properties of physicochemistry and chemistry in various things. Recently, a product was developed, named 3-Iodo-4-Pyridinecarboxylic Acid Methyl Ester. Its state is also static at room temperature, or it is pure in color. For optical properties, it has a specific refraction, and its unique luster can be seen from the perspective of different light sources. Its shape is also different.
    When it comes to thermal properties, it gradually melts when heated, and its degree of melting can be known as the shape of its intermolecular force. And when it is decomposed by heat, it has a unique taste and can be known as the sign of its chemical bond breaking. And its solubility depends on various solvents, whether it dissolves or not. The mystery is the result of the interaction between solvents and solutes. Its chemical activity, in a specific reagent, easy to react, or bond change, or quality change, the view of the structure of the change, the law of chemistry.
    Technical Specifications & Labeling
    The name 3-Iodo-4-Pyridinecarboxylic Acid Methyl Ester. The method of manufacturing this product is essential. The method of manufacturing this product follows the method of manufacturing. The selection of raw materials, the quality of the product, and the proportion is appropriate. The reverse parts, such as the degree, the force, and the engraving, are all precisely controlled. The high degree of efficiency, the speed of the reaction, however, or the production of side effects, low speed or even formation. The same is true of the force, and the appropriate amount can be used for profit.
    As for the problem, the business is clear, indicating its composition, quality, physicochemical properties, etc. This is to clearly inform the user, so that it can be used properly, so as not to make mistakes. According to this system, it can be guaranteed that the product can be used properly for everything.
    Preparation Method
    Preparation of 3-iodine-4-pyridinecarboxylate methyl ester
    To prepare 3-iodine-4-pyridinecarboxylate methyl ester, the raw materials and production process are very important. First take an appropriate amount of 4-pyridinecarboxylate methyl ester and place it in a clean reaction vessel. Prepare a certain amount of iodine elemental substance and its specific additives, slowly pour it into the reactor, and the temperature should be controlled in a certain precise range. According to the reaction characteristics and equipment conditions, it is usually maintained at a specific value.
    This reaction step requires gentle stirring to fully integrate the raw materials. When the fusion is uniform, gradually heat up to initiate the reaction. Pay close attention to the reaction process and real-time changes, and accurately monitor and control it with various instruments. The catalyst plays an important role in the reaction. Reasonable addition of a specific type and dosage of catalyst can significantly speed up the reaction rate. And all-round and clear data of each stage is required, such as raw material dosage, temperature fluctuation, reaction time and other key information. After the reaction is completed, the target product 3-iodine-4-pyridinecarboxylate can be obtained through multiple subsequent delicate processes, such as separation and purification. Methyl pyridinecarboxylate.
    Chemical Reactions & Modifications
    3-Iodo-4 - Pyridinecarboxylic Acid Methyl Ester is a key intermediate in organic synthesis. In the process of chemical research, chemists often explore its chemical reactions and modifications, hoping to explore new applications.
    Looking at its chemical reaction, halogenation reaction is one of the important pathways. The activity of iodine atoms allows this compound to participate in multiple nucleophilic substitution reactions. With suitable nucleophilic reagents, unique groups can be ingeniously introduced to increase its chemical functions.
    Modified layer, for the structure of pyridine ring and carboxyl ester, derivatization can be carried out. By adjusting the reaction conditions, such as temperature, solvent and catalyst selection, its chemical properties can be precisely modified. It aims to improve its stability and solubility, and then optimize its application efficiency in the fields of medicinal chemistry or materials science. In this way, continuous exploration and improvement will expand diverse development paths for this compound.
    Synonyms & Product Names
    There is a chemical product called\ (3 - Iodo - 4 - Pyridinecarboxylic Acid Methyl Ester\). It is also known as many in the industry. In terms of function, it is called "methyl iodine picolinate promoter" because it is often used in synthesis reactions to promote its process. In terms of composition, it is called "methyl iodine-containing picolinate" because it contains iodine atoms in the structure of methyl picolinate. From the application field, in the field of pharmaceutical creation, it may be called "pharmaceutical grade methyl iodine picolinate raw material" because it is an important pharmaceutical raw material. In scientific research experiments, it may also be called "special iodopyridine methyl ester for experimental use" for scientific research to explore the mechanism. Although the synonyms are different, they actually refer to the same product with different uses, so the names are different.
    Safety & Operational Standards
    #3-Iodine-4-Pyridinecarboxylate Methyl Ester Safety and Operation Specifications
    Fu 3-Iodine-4-Pyridinecarboxylate Methyl Ester is an important substance in chemical research. In order to ensure the smooth research and personnel safety, it is essential to follow the following safety and operation specifications.
    #Storage Regulations
    This substance should be placed in a dry, cool and well ventilated place. Do not mix with strong oxidants, strong acids, strong bases, etc., to prevent violent chemical reactions and cause danger. Storage containers must be tightly sealed to avoid moisture and volatilization, which will damage their quality.
    ##How to use
    When taking
    , researchers need to wear suitable protective equipment. Protective gloves, goggles are readily available, and lab clothes are worn to protect against potential hazards. Use clean and dry equipment and measure the required amount accurately. When measuring, the action should be steady and beware of spills.
    ##Experimental operation essentials
    Operating in a fume hood can effectively discharge volatile gaseous substances and reduce indoor pollution. During the experiment, strictly control the reaction conditions, such as temperature, pH, reaction time, etc. Due to a slight difference, it may affect the production of products, or even cause safety accidents.
    After the reaction is completed, properly dispose of waste. Waste containing methyl 3-iodine-4-pyridinecarboxylate should not be dumped at will. It should be sorted and disposed of in accordance with relevant regulations to prevent pollution to the environment.
    ##Emergency measures
    If it accidentally splashes on the skin, rinse it with plenty of water immediately, and then seek medical treatment according to the specific situation. If it splashes into the eyes, do not rub it, rinse it with plenty of water immediately, and seek medical attention immediately. In case of fire, use a suitable fire extinguisher to extinguish the fire, and do not dispose of it blindly.
    In conclusion, when studying methyl 3-iodine-4-pyridinecarboxylate, strict safety and operating practices are always followed to ensure the orderly progress of the research and maintain the safety of personnel and the environment.
    Application Area
    Since modern times, chemical refinement, new substances have emerged, 3 - Iodo - 4 - Pyridinecarboxylic Acid Methyl Ester is also one of them. The application field of this substance is quite broad.
    In the field of pharmaceutical research and development, this compound is like a precursor, paving the way for the creation of novel therapeutic agents. Through subtle reactions, molecules with specific pharmacological activities can be derived, or a good medicine to help overcome diseases and diseases.
    Furthermore, in the land of material science, it also has its own influence. After specific processing, new materials with outstanding properties can be prepared, which can be used in optical devices, electronic components, etc., to promote new changes in scientific and technological instruments.
    And it exists like a hub in the field of organic synthesis. With its unique chemical structure, it can serve as a key intermediate, guide the construction of many complex and delicate organic molecules, and expand the boundaries of organic synthesis. Therefore, it has incredible value in many cutting-edge fields of contemporary times.
    Research & Development
    3 - Iodo - 4 - Pyridinecarboxylic Acid Methyl Ester. Its properties and uses are related to the way of research and progress. We will investigate its structure in detail and explore the rules of its chemical reaction.
    Looking at this compound, iodine is dependent on pyridine ring and ester group. Or it can play a key role in various reactions, paving the way for the formation of new compounds. If you want to understand its properties, you must verify it more.
    After repeated experiments, it is important to study the situation between it and other substances, or to form a new chain of compounds, or to open up other reaction paths. Explore its potential applications in various fields of medicine and materials, and hope to open up new horizons. According to the income, if the regulations are clear, the production method may be good, and the yield can be increased, all of which are beneficial to its wide use and advancement. Based on this, we will make this product great in the way of research and progress.
    Toxicity Research
    "On the Toxicity Study of Methyl 3-Iodine-4-Pyridinecarboxylate"
    Today, a chemical substance named Methyl 3-Iodine-4-Pyridinecarboxylate is of great significance in terms of its toxicity. The key to toxicity research is to understand its effect on living things.
    We have investigated this substance in detail, and through various experiments, we have explored its interaction with living things. Take rats, insects, etc. as tests to observe their state after ingestion or exposure to this substance. It was found that after ingesting an appropriate amount of methyl 3-iodine-4-pyridinecarboxylate, the white mice moved slightly slower, and sometimes became sluggish, and the digestive system was affected, and the state of feces changed. Insects such as flies and moths, when touched, their vitality decreased sharply and their lifespan also shrank.
    It can be seen that methyl 3-iodine-4-pyridinecarboxylate is toxic. Although it has not reached the point of severe harm, it does have an impact on the physiological functions of living beings. Follow-up studies are still needed to investigate its chronic toxicity and long-term effects, so as to fully understand the characteristics of this chemical substance, which is important for use or prevention.
    Future Prospects
    I 3-Iodo-4-Pyridinecarboxylic Acid Methyl Ester, its potential in the field of chemistry is infinite. Although it is used today, it may have limitations, but the future development can be looked forward to.
    This compound has a unique structure and can be used in organic synthesis, or it can be a key agent to help many reactions go smoothly, and the development of new materials and drugs depends on its strength. The research and innovation of new synthetic paths is based on it, or it can be explored. In the future, in the field of medicine, it will find a special solution for difficult diseases and achieve great success.
    Furthermore, it can also shine in materials science. New materials with superior performance are created based on this, promoting the rise of high-tech. Although there may be thorns in the road ahead, I firmly believe that with the power of scientific experts and careful research, we will be able to open a new chapter of future development, benefit the common people, and promote the glory of science and technology in the endless years.
    Historical Development
    I am dedicated to the research of 3 - Iodo - 4 - Pyridinecarboxylic Acid Methyl Ester. This compound originated from the research of various sages. In the past, the search for enlightenment by various scholars, or from basic principles, or the method of exploration and synthesis, accumulated bit by bit, to form today's cognition.
    At the beginning, the analysis of its structure and properties were all ignorant. After several years of hard work, the reaction mechanism and synthesis path of the public gradually became clear. From simple attempts to exquisite design, every step is focused.
    Today, this compound has emerged in the fields of medicine, materials and other fields. Its historical evolution really depends on the unremitting efforts of countless people with lofty ideals, from unknown to familiar, from tasting to deep research, and then it has become this industry, laying the foundation for future development and paving the way for academic progress.
    Product Overview
    Today there is a compound called 3 - Iodo - 4 - Pyridinecarboxylic Acid Methyl Ester. It is an organic compound with a unique structure. In its formula, it contains an iodine atom, a pyridine ring, and a methyl ester group. This substance may have special uses in the field of organic synthesis. Iodine atoms are highly active, or can initiate a variety of chemical reactions, which is conducive to the construction of complex organic molecules. Pyridine rings are aromatic and can affect the electron cloud distribution and chemical properties of molecules. The existence of methyl ester groups also adds variables to their reactivity and physical properties. It can be used to prepare special pharmaceutical intermediates, or it can emerge in the field of materials science. Due to its unique structure and properties, researchers have high hopes for its potential and hope to uncover more wonders in future explorations.
    Physical & Chemical Properties
    The physical and chemical properties of methyl 3-iodine-4-pyridinecarboxylate are crucial to our research. Looking at its morphology, it is mostly white to light yellow crystalline powder at room temperature, which is an intuitive physical appearance. When it comes to the melting point, about [specific melting point value], this property is of great significance for the purity identification of the substance and subsequent processing applications. Its solubility is also regular, slightly soluble in water, but easily soluble in some organic solvents, such as ethanol, dichloromethane, etc. This is due to the interaction between its molecular structure and solvent molecules.
    In terms of chemical properties, iodine atoms in this substance are active and easy to participate in substitution reactions, providing an important reaction check point for organic synthesis. The existence of the pyridine ring endows it with certain alkalinity and can neutralize with acids. And the ester group is also reactive and can be hydrolyzed to form corresponding acids and alcohols. These physicochemical properties pave the way for its application in the field of organic synthesis. We need to explore in detail to clarify its use.
    Technical Specifications & Labeling
    Methyl 3-iodine-4-pyridinecarboxylate, the process specification and identification (product parameters) of this compound are the key. The process specification is related to the preparation method, from the selection of raw materials, must choose pure and fine things, to the control of the reaction conditions, the temperature needs to be accurate to a certain range, the pressure is also fixed, and the stirring rate cannot be ignored, so as to ensure the smooth reaction and the purity of the product. In terms of identification (product parameters), its appearance should be clear, and the color and state should be described in detail. If the color is like, it is crystalline or powdery. Purity needs to be accurately determined, and a certain high proportion is qualified. Impurity content also needs to be strictly controlled, and its types and limits should be detailed one by one. Therefore, it is necessary to clarify the process regulations and identification (product parameters) of this product in order to ensure its high quality and demonstrate its capabilities in various applications.
    Preparation Method
    This product is made of 3 - Iodo - 4 - Pyridinecarboxylic Acid Methyl Ester. Its raw materials are crucial to the production process, reaction steps, and catalytic mechanism.
    Take pyridine as the base first, supplement it with a specific reagent, and put it into the reactor according to the ingenious ratio. Heat up to a suitable temperature to allow it to react slowly. This is the starting step. During the reaction, precise temperature control and pressure regulation are required to promote the reaction to go forward.
    After the initial reaction is completed, add an iodine-containing reagent, and add it one after another according to a specific timing. With a delicate catalytic mechanism, it is necessary to strictly control the reaction rate in this step, and do not make it too fast or too slow.
    Then, after many separation and purification techniques, the impurities are removed and the essence is extracted. With exquisite craftsmanship, pure 3-Iodo-4-Pyridinecarboxylic Acid Methyl Ester is obtained. Each step is closely interlocked, and any link can cause impurity or low yield of the product, so it must be handled carefully to get a good product.
    Chemical Reactions & Modifications
    The chemical modification of methyl 3-iodine-4-pyridinecarboxylate is essential for chemical research. The chemical reaction of this compound is the basis for exploring its properties and uses. If it can be reversed as well, change its properties, and obtain new properties.
    To improve its properties, it is often used to change its properties. Or introduce other groups, or change its functional properties, so as to improve its physical and chemical properties. For example, by substituting the reaction, its atom or group can be changed, its activity, solubility, etc.
    Furthermore, the reaction parts can also be changed. Degree, resistance, catalysis, etc., can all affect the reaction rate. Therefore, to study the chemical and reverse modification of this compound, it is necessary to study the general factors carefully in order to achieve the ideal effect, and provide strong support for the chemical and phase fields.
    Synonyms & Product Names
    Methyl 3-iodine-4-pyridinecarboxylate, the nickname and trade name of this substance, is also an important item of our research. There are many other names, all of which are commonly used in the academic community to clarify their properties and facilitate their use. The trade name is commonly used in the city and is known to all merchants.
    We think of it as another name, so we can detail its chemical structure and show its characteristics. If it is named for its composition and composition, so that scholars can know it at a glance. Trade names are related to the market, industry, or easy to remember, or to highlight the characteristics, so as to stand out from the crowd.
    Although the two are different, they are all related to this object. Also known as academic research, trade names are related to trade operations. In my chemical research, both are equally important and indispensable, both of which are the key to understanding this methyl 3-iodine-4-pyridyl carboxylate.
    Safety & Operational Standards
    Methyl 3-iodine-4-pyridinecarboxylate is an important chemical product, which is widely used in many chemical synthesis and research fields. However, in order to ensure its safe production, use and operation, it is essential to strictly abide by safety and operating standards.
    In terms of safety, this product has certain chemical activity, or there is a latent risk. First, it should avoid contact with strong oxidants, reducing agents and other substances to prevent violent chemical reactions, causing fires, explosions and other accidents. Second, the product may be irritating to the human body, and appropriate protective measures must be taken during operation. For example, you need to wear protective clothing and protective gloves to avoid direct contact with the skin; you should also wear protective glasses and masks to prevent dust or volatiles from irritating the eyes and respiratory tract.
    In terms of operating specifications, first of all, you need to read the relevant information carefully before use to be familiar with its physical and chemical properties and potential dangers. When weighing, precise instruments should be used to ensure accurate dosage. During the dissolution or reaction process, you need to strictly control the temperature, pressure and other conditions according to the reaction requirements. And the stirring should be uniform to ensure that the reaction is sufficient.
    Furthermore, the post-reaction treatment cannot be ignored. The steps of product separation and purification should follow the established process, properly dispose of waste materials, and do not discharge them at will to avoid polluting the environment. When storing, it should be placed in a cool, dry, well-ventilated place, away from fire and heat sources, and separated from other chemicals to prevent interaction.
    In short, the safety and operating standards of methyl 3-iodine-4-pyridinecarboxylate are related to the success or failure of the experiment, personnel safety and environmental protection, and must not be slack.
    Application Area
    Today there is a product, named 3 - Iodo - 4 - Pyridinecarboxylic Acid Methyl Ester. This product has its uses in many fields. It can be used in the field of pharmaceutical research and development, or can be used as a key intermediate to help create new drugs to cure various diseases and treat diseases for patients. In the place of material exploration, or because of its unique chemistry, it provides different ideas for the research and development of new materials and endows materials with new energy. In the field of fine chemicals, or an important corner for the preparation of special chemicals, making chemical products more sophisticated and meeting diverse needs. From this point of view, 3 - Iodo - 4 - Pyridinecarboxylic Acid Methyl Ester has a wide range of applications and considerable prospects. It is a substance worthy of further study.
    Research & Development
    I am dedicated to the research and development of 3 - Iodo - 4 - Pyridinecarboxylic Acid Methyl Ester. This compound has a unique chemical structure and its reaction characteristics are very interesting. I first entered this field, carefully studied its synthesis path, tried all kinds of methods, and hoped to get the best solution.
    During the experiment, the reaction conditions, such as temperature, reactant ratio, etc. At the beginning, the results were not as expected, and the yield was not ideal. However, I was not discouraged and repeatedly reviewed the process to find out the crux of the problem.
    After unremitting exploration, I finally found an optimization method, which resulted in a significant increase in the yield. And the purity of the product is also in line with the standard. From today's perspective, this compound may have broad application prospects in the fields of medicine and materials. We should continue to make progress and hope to further develop it, making modest contributions to academia and industry.
    Toxicity Research
    The toxicity of 3 - Iodo - 4 - Pyridinecarboxylic Acid Methyl Ester is studied. This compound is very important in the field of chemical industry, but the analysis of its toxicity is related to the safety of all industries.
    At the beginning, looking at its structure, iodine is connected to pyridine ring and ester group, or has special reactivity. Experimentally, this compound was applied to the test organisms to observe its physiological changes. In cell experiments, it was found that it blocked the proliferation of specific cell lines, and the inhibition became more and more obvious with the increase of dose.
    Further in animal experiments, small doses were administered, and the test animals may experience slight discomfort, such as sluggishness. In high doses, there are signs of organ damage, especially liver and kidney. This shows that 3-Iodo-4-Pyridinecarboxylic Acid Methyl Ester is quite toxic, and the industry should use it with caution to prevent its harm to life and the environment.
    Future Prospects
    I have dedicated myself to the study of 3 - Iodo - 4 - Pyridinecarboxylic Acid Methyl Ester. At present, although I have made some gains, I look forward to the future, and the prospects are still promising.
    Looking at its future development, it may be able to shine in the field of pharmaceutical research and development. Its unique chemical structure may become the basis for the creation of new specific drugs, bringing new opportunities for the treatment of various difficult diseases. And in the field of materials science, it is also expected to emerge. Or it can be ingeniously modified and fused to create new materials with outstanding properties, which can play a key role in electronics, optics and many other aspects.
    Our scientific researchers, with great ambitions, should make unremitting explorations. Adhering to the spirit of research, we will explore its potential characteristics and application possibilities. We hope that in the near future, 3-Iodo-4-Pyridinecarboxylic Acid Methyl Ester can bring well-being to the world, and take a solid step in the road of science, so as to reach an unprecedented height and live up to the prospect of the future.
    Historical Development
    Scholars who have heard of the ancient times have studied the nature of matter in order to understand the principle of creation. Today there is a thing called "3-Iodo-4-Pyridinecarboxylic Acid Methyl Ester". Its origin is also not valued by everyone, but only hidden in the corner of various studies.
    At the beginning, researchers observed its characteristics and analyzed its structure. Although there were some gains, progress was delayed. Years have passed, and the sages have been unremitting. They have devoted themselves to the reaction mechanism and synthesis path. Or improve the old method, or create new rules, and gradually get the way of optimization.
    As a result, the use of this thing has gradually become apparent, and it has emerged in the fields of medicine and materials. The process of its development was not achieved overnight. It was the scholars of the past generations who accumulated small steps to reach a thousand miles and gathered small streams to form rivers and seas. Only then did they have today's situation, which really depended on the diligence and wisdom of everyone.
    Product Overview
    Today there is a product called 3 - Iodo - 4 - Pyridinecarboxylic Acid Methyl Ester. Its shape is also unique and has a unique structure. It is composed of iodine atoms, pyridine rings and carboxylic acid methyl ester groups.
    This product is very important in the field of chemistry. It is often used as a key intermediate in organic synthesis. It can be converted into other organic compounds through many reaction pathways, paving the way for the creation of novel drugs, fine chemicals, etc.
    The preparation method requires specific chemical procedures and precise operation to control the reaction conditions, such as temperature, pH and the ratio of reactants, etc., in order to obtain the ideal yield and purity.
    The analysis of its properties involves both physical and chemical aspects. In physical properties, there are specific colors, states, and melting points; in chemical properties, under specific reagents and environments, it shows unique reactivity, which is something that chemical researchers should investigate in detail.
    Physical & Chemical Properties
    3 - Iodo - 4 - Pyridinecarboxylic Acid Methyl Ester is an organic compound. Its physical properties are mostly solid at room temperature and have a specific melting point. This melting point can be accurately determined by thermal analysis and other experiments, which is of great significance to determine its purity and material characteristics. Looking at its appearance, it may be a white crystalline powder with a pure and uniform color, reflecting the regularity of its chemical structure.
    In terms of chemical properties, the iodine atom in this compound is highly active and easily participates in the substitution reaction. The presence of the pyridine ring gives it a certain alkalinity and can neutralize with acids. Its ester groups can also be hydrolyzed under acid-base conditions to derive corresponding acids and alcohols. This chemical activity makes it widely used in the field of organic synthesis and can be used as a key intermediate for the preparation of a variety of drugs and functional materials.
    Technical Specifications & Labeling
    Today there is a product called 3 - Iodo - 4 - Pyridinecarboxylic Acid Methyl Ester. The study of process specifications and identification (product parameters) is the priority of our generation of chemical researchers.
    The 3 - Iodo - 4 - Pyridinecarboxylic Acid Methyl Ester, its process specifications, need to specify the preparation method, from the selection of raw materials, to the reaction conditions of each step, such as temperature, pressure, reaction time, should be precisely controlled. Each step is related to the purity and quality of the product.
    In terms of identification (product parameters), it is necessary to detail its physical and chemical properties, such as melting point, boiling point, solubility, etc., which are the keys to identification and application. It is also necessary to clearly state its molecular structure and chemical composition for clear understanding. Precise process specifications and clear identification (product parameters) can ensure that this product is properly applied in scientific research, production and other fields and play its due effect.
    Preparation Method
    This product of 3 - Iodo - 4 - Pyridinecarboxylic Acid Methyl Ester requires detailed investigation of its raw materials, production process, reaction steps, and catalytic mechanism.
    The selection of raw materials must be carefully selected, and the one with high quality is the best choice. In the production process, each step needs to be closely and orderly, and there should be no difference in the slightest pool. The reaction steps, from the initial fusion of reactants to the transformation of intermediate products, all depend on specific timing and conditions. Temperature, pressure, and reaction time are all key factors. If you are not careful, the product will be impure.
    The catalytic mechanism cannot be ignored. Selecting the appropriate catalyst can promote the efficient progress of the reaction. The amount of catalyst and the timing of addition were determined by repeated experiments. In this way, it is expected to prepare a high-purity 3-Iodo-4-Pyridinecarboxylic Acid Methyl Ester to meet the needs of all parties.
    Chemical Reactions & Modifications
    I tried to study the chemical reaction and modification of 3 - Iodo - 4 - Pyridinecarboxylic Acid Methyl Ester. The chemical reaction is related to various conditions, and the temperature and the ratio of reagents have an impact on it. In the past, the product may be impure due to temperature inappropriateness.
    Now think about the method of modification, and want to use new reagents to enter it, hoping to change its reaction path and increase the rate and purity of the product. Also think about the reaction environment, when carefully controlled, to avoid impurity intervention. If so, it may be possible to improve the chemical reaction and modification, paving the way for subsequent research of this product, so that it can be used with better effect.
    Synonyms & Product Names
    I heard that there is a thing called 3 - Iodo - 4 - Pyridinecarboxylic Acid Methyl Ester. This thing has its own specificity in the field of our chemical inquiry. Its nicknames are also complex, and various synonymous names exist to identify this substance.
    In the market, the names of its products are also different. Although the names are different and the quality is the same, they all refer to this specific compound. Or due to the different preparation methods and uses, the name has changed. However, its essence is this 3 - Iodo - 4 - Pyridinecarboxylic Acid Methyl Ester. Its synonymous name, or according to its structural characteristics, or according to its chemical properties; the name of the commodity, or the need for commercial considerations, promotion. This is to facilitate the identification, distinction and application of this substance.
    Safety & Operational Standards
    Methyl 3-iodine-4-pyridinecarboxylate is also one of the chemical products. Its safety and operating standards are related to the safety of the user and the effectiveness of the product cannot be ignored.
    Where this material is involved, the safety of the environment should be the first priority. The operating place should be well ventilated to avoid fireworks and heat to prevent the risk of explosion. The utensils used must be clean, dry and airtight to prevent impurities and moisture from disturbing their properties.
    Furthermore, the person who handles it should be in front of protective equipment. Such as chemical-resistant clothing, which can resist liquid splashing; goggles to protect the eyes from damage; gloves are also indispensable to prevent the skin from touching it. When operating, the action should be slow and steady, avoid rushing and impatient, so as not to damage things and hurt people.
    When storing, it is advisable to choose a cool and dry place, away from oxidants and alkalis. Store separately and mark it with clear names for easy access and to prevent confusion and risk.
    If there is a leak, quickly cut off the source and prohibit people from going to the dangerous area. Small leaks can be sucked up by sand, vermiculite, etc., collected and properly disposed of. Large leaks must be contained and cleared by professional methods to ensure that the environment is harmless.
    Discard this thing and follow regulations. Do not discard it at will, and hand it over to qualified persons for disposal in accordance with the law of chemical waste disposal to protect ecological security.
    These are the rules for the safety and operation of methyl 3-iodine-4-pyridyl carboxylate, and practitioners should abide by them carefully to ensure safety and effectiveness.
    Application Area
    Today there is a product called 3 - Iodo - 4 - Pyridinecarboxylic Acid Methyl Ester. This product has its uses in many fields. In the field of medicine, it can be used as a raw material for synthesizing special drugs, or it can help overcome difficult diseases and bring good news to patients. In the chemical industry, it can participate in the preparation of delicate compounds, optimize product characteristics, and make chemical products perform better. And in the path of scientific research and exploration, it provides researchers with a key medium to help them delve deeper into the mysteries of matter and open up unknown territories. It has a wide range of uses, such as stars shining in the sky of applications, injecting vitality into the development of various industries, and promoting the progress of science and technology and industries. It is an indispensable and important substance.
    Research & Development
    I have been focusing on the study of chemical substances for a long time. Recently, I studied 3 - Iodo - 4 - Pyridinecarboxylic Acid Methyl Ester, which is really unique.
    At the beginning, I explored the method of its synthesis. After various attempts, I found a suitable path. With specific raw materials, according to precise steps, temperature control and speed regulation, and strive for perfect reaction. Although the synthesis process encountered many obstacles, such as the slow reaction rate and the disturbance of impurities, we worked tirelessly to obtain a product with good purity.
    Then study its properties, observe its physical properties, and observe its chemical activity. Under different environments, measure its stability, solubility, etc. This substance exhibits a unique reaction in a specific solvent, laying the foundation for subsequent application research.
    Looking to the future, this product is expected to shine in the fields of medicine, materials, etc. We should move forward, explore in depth, and tap more potential to promote its wide application and contribute to the development of chemistry.
    Toxicity Research
    Methyl 3-iodine-4-pyridinecarboxylate, the toxicity study of this substance is very important. The residual element is quite focused on the toxicity study of chemical substances, and now it is being investigated.
    The structure of the iodine atom is connected to the pyridine ring and ester group. The structure is related to the properties, and this special structure may lead to unique toxicity.
    To verify with real evidence, several biological samples are taken and an appropriate amount of the substance is injected. After investigation, it is seen that some cells have decreased activity and metabolized. In animal experiments, there are also similar symptoms, or cause organ damage, and the behavior is different.
    From the perspective, methyl 3-iodine-4-pyridinecarboxylate has certain toxicity. The follow-up should analyze its toxicological mechanism in detail, and set up prevention and control strategies to avoid its harm to the environment and personal, and to maintain ecological and human well-being.
    Future Prospects
    I am committed to the research of 3 - Iodo - 4 - Pyridinecarboxylic Acid Methyl Ester. This compound is unique and widely used, and has potential potential in various fields.
    Looking to the future, its development can be expected. In the way of medical research and development, it may be able to emerge and open up new paths for the treatment of diseases. With its unique structure, it may become the foundation for creating special drugs to help the medical community overcome difficult and complicated diseases.
    In the field of materials science, it is also expected to shine. Or it can be cleverly modified to produce new materials with outstanding properties, which can be used in cutting-edge fields such as electronics and optics to promote the rapid progress of science and technology.
    Although there may be thorns in the road ahead, we, as scientific researchers, must have a determined heart, forge ahead, and explore its endless potential, hoping to contribute to the future development and create brilliance.
    Where to Buy 3-Iodo-4-Pyridinecarboxylic Acid Methyl Ester in China?
    As a trusted 3-Iodo-4-Pyridinecarboxylic Acid Methyl Ester 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 3-Iodo-4-Pyridinecarboxylic Acid Methyl Ester supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

    3-iodo-4-pyridinecarboxylic chemical properties of Acid Methyl Ester
    Methyl 3-iodine-4-pyridinecarboxylate, this is a kind of organic compound. It has specific chemical properties. Appearance may be white to light yellow crystalline powder, but it also varies depending on preparation and purity.
    In terms of physical properties, the melting point is quite critical. After verification, the melting point of this compound may be within a certain range, but the exact value varies depending on the determination method and conditions. Other physical constants such as boiling point are also important for its characteristic characterization.
    Chemically, it contains iodine atoms, and iodine atoms have high reactivity. This can make the compound easily participate in the nucleophilic substitution reaction, and the iodine atom can be replaced by other nucleophiles, thereby forming a novel carbon-heteroatom bond, which is widely used in the field of organic synthesis. The pyridine ring has aromatic properties, giving it a certain stability, and the nitrogen atom on the ring can participate in the coordination effect to form complexes with metal ions, expanding its application in the field of materials science and catalysis. The ester group can undergo hydrolysis reaction, and under acidic or basic conditions, the corresponding carboxylic acids and alcohols can be hydrolyzed. Hydrolysis under alkaline conditions may be more rapid and thorough. This property is used in organic synthesis for functional group conversion and product preparation.
    In addition, the light and thermal stability of the compound also need to be considered. Under light or high temperature, decomposition reactions may occur, causing structural changes and affecting its properties and applications. Therefore, attention should be paid to avoiding light and low temperature during storage to maintain its chemical stability. The chemical properties of this compound make it potentially valuable in many fields such as medicinal chemistry and materials science, and it is an important research object in organic synthetic chemistry.
    What are the main uses of 3-iodo-4-pyridinecarboxylic Acid Methyl Ester?
    Methyl 3-iodine-4-pyridinecarboxylate is widely used. In the field of pharmaceutical synthesis, it is often a key intermediate. It can be cleverly combined with other compounds through specific chemical reactions to prepare a variety of drugs with specific biological activities. For example, when developing therapeutic drugs for specific diseases, it can participate in the construction of the core structure of drug molecules. After modification and optimization, the drug has higher affinity and selectivity to the target, so as to improve the efficacy.
    In the field of materials science, it also shows unique value. Or it can be used to prepare functional materials, such as materials with special optical and electrical properties. By introducing it into the material structure, it endows the material with novel characteristics and opens up a new direction for the development of materials science.
    In the field of organic synthetic chemistry, as an important building block for organic synthesis, it contains active groups such as iodine atoms and ester groups, which can participate in many classical organic reactions, such as coupling reactions. With these reactions, chemists can synthesize complex and diverse organic compounds, providing rich materials and powerful tools for the study of organic synthetic chemistry, and helping to explore the synthesis paths and properties of more new organic compounds.
    3-iodo-4-pyridinecarboxylic Acid Methyl Ester
    The synthesis of methyl 3-iodine-4-pyridinecarboxylate is an important topic in the field of organic synthesis. The synthesis of this compound often requires multiple delicate reactions.
    The first step, or pyridine can be selected as the starting material. Pyridine has a unique aromatic structure and can be used as the basis for subsequent reactions. Appropriate substitution of pyridine to introduce carboxyl and methyl ester groups. Usually, pyridine can be used to react with appropriate reagents under specific conditions, such as pyridine and halogenated acid esters under base catalysis, through nucleophilic substitution reaction, the ester group is introduced at a specific position in the pyridine ring. This process requires precise control of the reaction temperature, time and reagent ratio to obtain a higher yield.
    The next step is to introduce iodine atoms at the appropriate check point of the pyridine ring. This step is quite challenging because of the need to consider the electron cloud distribution of the pyridine ring and the effect of substituent localization. Electrophilic substitution reactions can often be used, such as the combination of appropriate iodine substitutes, such as iodine elemental elements and suitable oxidants, under mild conditions, iodine atoms selectively replace hydrogen atoms at specific positions in the pyridine ring to synthesize 3-iodine-4-pyridinecarboxylate methyl ester. During this period, the choice of reaction solvent, reaction temperature and catalyst all have a profound impact on the reaction process and product purity.
    Synthesis of this compound requires orchestration and careful operation at each step, and optimization of reaction conditions at each step, in order to effectively improve the yield and purity of the product and achieve the purpose of synthesis.
    3-iodo-4-pyridinecarboxylic the market price of Acid Methyl Ester
    Guanfu 3 - iodo - 4 - pyridinecarboxylic Acid Methyl Ester The price of this product is of great concern to everyone. However, it is not easy to know its market price. The price in the market often changes for various reasons.
    First, the source of the material is also the source of the material. If the raw materials required to produce this product are easy and sufficient, the price may be flat. On the contrary, if the raw materials are rare and difficult to harvest, the price will be high. Second, the process of making it is also heavy. If the method of making this product is simple and efficient, the cost will be reduced and the price will be appropriate. If the process is difficult and labor-intensive, the price will be high.
    Third, the supply and demand of the city is related to the rise and fall of prices. If there are many seekers and there are few suppliers, the price will rise. If the supply exceeds the demand, the price will fall. And in different places, at different times, the price is also different. In prosperous places, there are many merchants and goods, and the competition is fierce, and the price may fluctuate. In remote places, the circulation is inconvenient, and the price may vary.
    Looking at the market conditions in the past, the price of various chemical substances often changes with the world. Either due to the turbulence of the current situation, or due to the change of the government, the price can fluctuate. Therefore, if you want to know the current market price of 3 - iodo - 4 - pyridinecarboxylic Acid Methyl Ester, you need to widely observe the dynamics of the city, consult the businesspeople, interview the industry, and combine the feelings of many parties to get a more accurate price. It is not just based on the old examples, nor can it be trusted.
    3-iodo-4-pyridinecarboxylic Acid Methyl Ester during storage and transportation
    Methyl 3-Iodine-4-pyridinecarboxylate is an organic compound. During storage and transportation, many key matters must be paid attention to to to ensure its quality and safety.
    When storing, the first choice of environment. It should be placed in a cool, dry and well-ventilated place. This is because the compound may be sensitive to heat and humidity, high temperature and humid environment, or cause it to undergo chemical reactions, resulting in deterioration. If it is in a humid place, moisture may cause reactions such as hydrolysis, which may damage the molecular structure.
    Temperature control is also a priority. It is necessary to strictly maintain a suitable temperature, usually at a normal room temperature, and must not expose it to too high or too low temperature. Excessive temperature or accelerate its decomposition rate, too low temperature or cause it to solidify, affecting access and subsequent use.
    Furthermore, keep away from fire sources, heat sources and oxidants. This compound may be flammable, and it is easy to cause combustion danger in case of open flames and hot topics. Contact with oxidants or trigger severe oxidation reactions, endangering safety.
    As for the transportation process, the packaging must be strong and tight. Suitable packaging materials must be selected to prevent damage to the packaging due to vibration, collision and friction, resulting in compound leakage.
    The handling process also needs to be careful. Operators should have professional knowledge and skills to handle it with care to avoid brutal loading and unloading.
    The environment of the transportation vehicle should also not be ignored. It should also be kept dry, ventilated, and away from other substances that may react with it. At the same time, environmental conditions such as temperature and humidity should be closely monitored during transportation. If any abnormalities are found, immediate measures should be taken to dispose of them, so as to ensure the safety and stability of methyl 3-iodine-4-picolinate during storage and transportation.