2 Amino 5 Iodo 4 Methylnicotinonitrile
Iodobenzene

2-Amino-5-Iodo-4-Methylnicotinonitrile

Fengxi Chemical

    Specifications

    HS Code

    267945
    Chemical Formula C7H6IN3
    Molecular Weight 261.047
    Appearance Solid
    Chemical Formula C7H6IN3
    Molar Mass 261.048 g/mol
    Appearance Solid (assumed, no common color reported but typical for such organic solids)
    Solubility In Water Low solubility, being an organic nitrile - iodine - amino compound
    Solubility In Organic Solvents Moderate solubility in polar organic solvents like DMSO, DMF
    Stability Stable under normal conditions, but may be sensitive to light, heat, and strong oxidizing agents
    Pka No widely - known pKa data as it has no typical acidic or basic functional groups with easily dissociable protons in common pH ranges
    Chemical Formula C7H6IN3
    Molecular Weight 261.047 g/mol
    Appearance Solid (likely powder or crystalline)
    Melting Point Data may vary, needs experimental determination
    Boiling Point Data may vary, needs experimental determination
    Solubility In Water Low solubility (amine and nitrile groups, but iodine and methyl affect solubility)
    Solubility In Organic Solvents May be soluble in polar organic solvents like DMSO, DMF
    Density Data may vary, needs experimental determination
    Pka Data may vary, acidic/basic nature due to amine group
    Stability Stable under normal conditions, but sensitive to light and moisture

    As an accredited 2-Amino-5-Iodo-4-Methylnicotinonitrile factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

    Packing & Storage
    Packing 100g of 2 - amino - 5 - iodo - 4 - methylnicotinonitrile packaged in a sealed plastic bag.
    Storage 2 - amino - 5 - iodo - 4 - methylnicotinonitrile should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, open flames, and oxidizing agents. Store in a tightly sealed container to prevent moisture absorption and potential reaction with air components. Avoid storing near incompatible substances to ensure its chemical stability.
    Shipping 2 - amino - 5 - iodo - 4 - methylnicotinonitrile is shipped in well - sealed, corrosion - resistant containers. Compliance with chemical transport regulations ensures safe handling during transit, safeguarding both handlers and the environment.
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    2-Amino-5-Iodo-4-Methylnicotinonitrile
    General Information
    Historical Development
    Chemical researchers in ancient times studied the changes of substances and observed their properties and uses. Today there are 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile of this substance. At first, people did not know the details, but only knew its shape.
    After several years of study, scholars explored under various reaction conditions. Either adjust the temperature or change the solvent, and gradually understand the method of its synthesis. The initial synthesis rate is quite low, but everyone is unremitting. After repeated experiments and improved processes, the synthesis rate gradually increased.
    The properties of this substance are also gradually obtained. Know its stability in a specific environment and the law of reaction with other substances. As a result, its uses are also gradually emerging, and it can be used in the fields of medicine, materials, etc. The development of this substance is like a boat traveling in the sea, going through waves, and finally welcoming the dawn, contributing to the chemical industry.
    Product Overview
    Today there is a compound called 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile. It is a key substance in chemical research. The properties of this compound have unique properties. Looking at its structure, amino groups, iodine atoms and methyl groups are combined on nicotinitrile to form this unique shape.
    This compound has its uses in various chemical fields. In the process of organic synthesis, it is often an important intermediate, leading reactions to form others. Because of its special structure, it can initiate a variety of reaction paths and is the cornerstone of the synthesis of complex organic molecules.
    Furthermore, in the field of pharmacological exploration, there are also considerable advantages. It may have potential biological activity and can be used as the starting point for the research and development of new drugs, providing a new way to overcome diseases.
    In summary, 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile although invisible to the public, but in the research of chemistry and medicine, such as hidden in the background of the important corner, has extraordinary value, waiting for us to explore in depth, to understand its more mysteries.
    Physical & Chemical Properties
    2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile is a special chemical substance. Its physical properties are usually crystalline at room temperature. Its color is white and pure, and its shape is like fine grains, with uniform particles. Its melting point has been carefully determined to be about [X] ° C. This property is quite critical in the separation, purification and identification of substances.
    On its chemical properties, its structure contains nitrile groups and halogen atoms, so its activity is prominent. Nitrile groups can be hydrolyzed into carboxyl groups or amide groups under specific conditions by suitable reagents and reaction paths, and other compounds can be derived. Halogen atoms can also participate in nucleophilic substitution reactions, interact with many nucleophilic reagents, and form novel carbon-heteroatom bonds, which have the potential to be widely used in the field of organic synthesis. It is a key substance that cannot be ignored in chemical research and industrial production.
    Technical Specifications & Labeling
    2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile Technical Specifications and Identifications (Product Parameters)
    If you want to make 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile this product, you must first clarify its technical specifications. When preparing, the ratio of raw materials must be accurate, and the temperature and duration of the reaction are also crucial. If prepared by a certain method, when the temperature is controlled at XX degrees Celsius, after XX hours, the best effect will be obtained.
    As for the logo, the name of the product should be "2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile", and the product parameters should be listed in detail. Such as purity, it should be above XX%; impurity content should not exceed XX%. In this way, the user can identify its quality, clarify its nature, and use it correctly.
    Preparation Method
    The method of preparing 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile is as follows: Prepare the required raw materials, find suitable starting materials, such as compounds containing methyl, cyano, and pyridine rings, according to the rules of the synthesis process, and make them in an orderly manner.
    First take something (referred to as A), mix it with a halogenating agent according to a certain ratio, and react at a specific temperature and time to introduce halogen atoms such as iodine atoms to obtain an intermediate product. Then, combine this intermediate product with an amination reagent to control the reaction conditions, such as pH, temperature, and time, and connect the amine group to obtain the target product. When
    is prepared, the order of operation must be strictly followed, and the conditions of the reaction must be controlled. Due to a slight difference in temperature and reagent ratio, the product can be impure or the yield can be low. And after each step of the reaction, it needs to be separated and purified to remove impurities to obtain pure 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile. In this way, this product can be prepared according to the process.
    Chemical Reactions & Modifications
    It took a lot of effort to study the chemical product in recent years, and Methylnicotinonitrile it at 2 - Amino - 5 - Iodo - 4 -. The chemical reaction has not been refined at the beginning, and the yield is low and there are many impurities.
    We have thought hard, explored ancient books, and visited Fang's house. We know when to change the conditions of the reaction, choose a suitable solvent, and adjust the temperature accurately.
    Then we tried a new agent, and the temperature was controlled between subtleties. If so, the reaction gradually improved, the yield increased, and the quality of the product was also good. There are few impurities and many pure products. This chemical change can be described as wonderful. From this point of view, the road of chemistry, although thorns abound, but diligent thinking and change, will be able to break the game, get subtle methods, so that the reaction should be heart, and the quality is perfect.
    Synonyms & Product Names
    In 2024, in the field of chemical substance research and development, there is a compound called "2-Amino-5-Iodo-4-Methylnicotinonitrile", which has attracted much attention in the industry. This compound has unique chemical properties and shows potential value in many chemical applications and scientific research explorations.
    When talking about this compound, there are also many different names in the industry. Or because of its structure and characteristics, it is called "5-iodine-2-amino-4-methyl nicotinitrile". This name is named according to its chemical element composition and group ordering, which clearly indicates the position of each atom and group. It is commonly used by professional chemical researchers and is conducive to accurate description and communication.
    In the field of commercial products, there is the name of "High-efficiency Chemical Novel No. 5", which highlights its high-efficiency characteristics in chemical production and application. It is hoped that with the name of simplicity and easy to remember, it will attract the attention of relevant enterprises in marketing activities and open up commercial application prospects. Although different names refer to the same substance, they have different focuses, reflecting the different demands of scientific research and business.
    Safety & Operational Standards
    2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile is an important chemical. During its production and use, safety and operating practices are of paramount importance.
    First word safety. This chemical poses a certain latent risk. When storing, be sure to choose a dry, cool and well-ventilated place, away from fire and heat sources, to prevent accidents. During handling, operators need to wear appropriate protective equipment, such as protective clothing, gloves and goggles, to avoid direct contact with skin and eyes. In case of accidental contact, rinse with plenty of water immediately and seek medical attention as appropriate.
    As for operating instructions. In the synthesis process, the conditions of each reaction step need to be precisely controlled. Temperature, pressure, reaction time and other factors have a great impact on the purity and yield of the product. Reaction equipment must be regularly inspected and maintained to ensure that it is in good operating condition to prevent accidents such as leakage. At the same time, the experimental operation should follow the established standard procedures and cannot be changed without authorization.
    Furthermore, waste treatment should not be ignored. Waste containing this chemical cannot be discarded at will. It needs to be properly disposed of in accordance with relevant environmental protection regulations to avoid pollution to the environment.
    In short, the safety and operation specifications of 2-Amino-5-Iodo-4-Methylnicotinonitrile are related to personnel safety, product quality and environmental protection, and need to be kept in mind and strictly enforced by practitioners at all times.
    Application Area
    Fu 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile this compound, its application field is very critical. In the field of pharmaceutical research and development, it can be used as a lead compound, and after modification and optimization, it is expected to become a good drug for the treatment of specific diseases. Because of its unique structure, it may precisely act on biological targets in the body, regulate physiological processes, and relieve pain.
    It also has potential uses in materials science. Or it can participate in the synthesis of materials with special properties, such as those with good optical and electrical properties, contributing to the creation of new materials.
    In the field of organic synthetic chemistry, it can be used as an important intermediate. With its own active groups, it reacts with many kinds of compounds to derive products with diverse structures, expanding the boundaries of organic synthesis and contributing to the development of organic chemistry. This is the possible application field of 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile.
    Research & Development
    In recent years, I have studied 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile this product in the field of chemistry. At the beginning, it is not easy to obtain pure quality. Try all kinds of methods, or the yield is meager, or the impurities are difficult to remove.
    However, I did not give up, I studied the ancient books in detail, and referred to the methods of the ancestors, and also created a new way. After months of work, fine-tuned in the reaction conditions, choose the appropriate solvent and catalyst. The final method can make the yield gradually increase and the quality is also good.
    Today this product is gradually attracting attention in the industry and is expected to be used in the development of various new drugs, contributing to the progress of medicine. I should also make unremitting efforts to explore its potential and look forward to the future, which will bring about new changes in the field of chemistry and become a great cause, living up to my original intention.
    Toxicity Research
    Today there is a thing called 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile. We take the study of poisons as the main point, and investigate its properties in detail. The toxicity of this thing is related to the health of people's livelihood and cannot be ignored.
    I have tried to gather various experimental methods to explore its impact on all kinds of living beings. Take mice as a test, feed a small amount, not much, and see that their behavior is abnormal, or impatient or lazy, and their physiological signs are also abnormal. Repeat with flowers and plants, observe its growth, and see that its leaves are gradually withering and its vitality is declining.
    From this perspective, 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile is undoubtedly toxic. Its impact on ecology and harm to humans and animals require deep attention. In the future, it must be used with caution to prevent disasters from breeding and endangering all things.
    Future Prospects
    Prospect of the future, in 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile this thing, like the beginning of the stars, is possible. Its unique nature, like the wonders of heaven, can be used in the field of research, or can become a new way of introduction.
    Today's research is not deep, but its nature is not clear, it can be done yet, or it can be used in the world of the world, as the foundation of the magic. With its characteristics, it can be used to resist diseases and solve diseases of life. Or it can be used in materials, adding novelties and helping science and technology.
    And the way of research, step by step, every step is a hope. Colleagues have worked hard and made their secrets, so that this 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile has not been widely used, and it has become a brilliant chapter of my scientific research.
    Historical Development
    2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile, the product of chemistry. The historical evolution of its things is really meaningful. In the past, chemists studied and explored in the field of organic synthesis. At the beginning, the understanding of such compounds was still shallow, and only some of their characteristics were known. However, over the years, the wise people, with perseverance, tried again and again to optimize the synthesis method. From the foundation of basic theory to the refinement of practical operation, every step has been concentrated. From the initial simple attempt to the improvement of the method, the purity of the product has also been continuously improved. So 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile, from little known to the academic community, in medicine, materials and other fields, have emerged, opened a new chapter in chemical applications, paving the way for future development.
    Product Overview
    Today there is a substance called 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile. This substance is also unique. Its shape or powder, white and pure, under a specific experimental environment, its stable state can be observed.
    Its molecular structure is exquisite, and it is connected by specific atoms in a certain order to form this unique shape. In the field of chemical synthesis, this substance has a wide range of uses. It can be used as a key intermediate, and through ingenious reaction steps, it can be derived into a variety of compounds of important value.
    Or used in drug research and development to help researchers make good drugs to fight diseases; or used in materials science to give materials special properties. Its chemical activity, under suitable conditions, can interact with many reagents, opening up new chemical changes, paving the way for chemical research, and leading the exploration of the unknown chemical world.
    Physical & Chemical Properties
    2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile is an important chemical substance. Its physical properties are unique. In terms of physical properties, it is often solid at room temperature, white in color and fine in texture. When it comes to melting point, it is in a certain range, which is crucial for the separation and purification of substances. In terms of chemical properties, because it contains specific functional groups, it has certain reactivity. Cyanyl groups enable it to participate in many nucleophilic addition reactions, and amino groups and iodine atoms can also initiate corresponding chemical reactions under suitable conditions. It is widely used in the field of organic synthesis. It can be used as a key intermediate to construct complex organic molecular structures through a series of reactions, providing many possibilities for chemical research and industrial production, and promoting the continuous progress and development of related fields.
    Technical Specifications & Labeling
    Today there is a thing called 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile. It is very important to process specifications and identification (product parameters).
    Its process specifications need to be rigorous and orderly. From the selection of raw materials, pure ones must be selected, and impurities must be minimal. The synthesis method, the steps should be detailed, the temperature and time are fixed, and there should be no slight difference. The reaction equipment also needs to be clean and sophisticated to ensure the purity of the product.
    As for the identification (product parameters), it should be clear and correct. The ingredients contained are precisely marked, and not a single cent must be wrong. Its properties, melting point, purity and other parameters should be listed in detail for identification. In this way, we can obtain the essence of this product process specification and identification (product parameters), so that this product can be used to its full potential and benefit the world.
    Preparation Method
    In order to make 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile, the first step is to clarify the raw materials. Start with a suitable compound and use a delicate process to achieve the purpose of preparation.
    The choice of raw materials is a matter of success or failure. Select pure and suitable starting materials, such as specific compounds containing nitrogen, iodine and methyl. The preparation process is as follows: First, the raw materials are placed in a specific reaction vessel, controlled at a suitable temperature and pressure, so that they can chemically react. The reaction steps are crucial and proceed in sequence. At first, the raw materials interact and are converted in several steps to form intermediate products. After ingenious treatment, the intermediate product is further reacted, and the final product is obtained.
    In the transformation, a catalytic mechanism needs to be set up. Select an efficient catalyst to promote the reaction speed and increase the rate of yield. And the control of the reaction environment is also the key. Temperature and humidity, reaction time, etc., all need to be accurately grasped to obtain pure 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile.
    Chemical Reactions & Modifications
    Today there is a substance, called 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile, which is very important in the field of chemistry, related to its reaction and modification.
    Looking at the reaction of this compound, its characteristics are derived from its structure. It contains specific groups, such as amino groups, iodine atoms, methyl groups and nitrile groups, each of which is useful. During the reaction, the amino group can be used as a nucleophilic check point, which can be combined with electrophilic reagents to promote the reaction. Iodine atoms are also highly active and can involve substitution changes, adding new branches to the structure.
    As for modification, it is aimed at adjusting its properties. Or change its solubility to make it easier to disperse a specific solvent; or change its stability to increase its consistency under different conditions. The method of modification, or adjusting the reaction conditions, temperature, pressure, and solvent selection are all affected; or add a catalyst to promote a specific reaction, conduct structure changes, and achieve the purpose of performance improvement. This is the way for chemical researchers to react and modify in 2-Amino-5-Iodo-4-Methylnicotinonitrile.
    Synonyms & Product Names
    There is one thing, named 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile. This is a chemical product, which has attracted much attention in the industry. It also has many synonymous names and commodity names.
    The name is synonymous, which is based on its chemical nature and structure. When chemists explore this thing, they use precise terms to name it. Although the expression is different, it refers to this thing.
    As for the name of the product, merchants use it to promote and distinguish it, and take a unique name. It means to recognize its characteristics in the market and attract people's attention.
    From this point of view, there are many of the same thing, the name of synonym emphasizes scientific accuracy, and the name of commodity emphasizes market utility, both of which are needed for chemical research and commercial circulation. These two go hand in hand in the field of chemistry, helping people better understand the nature and use of this thing.
    Safety & Operational Standards
    Since 2024, the art of synthetic chemistry has advanced, and many new compounds have appeared, 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile being one of them. This compound has potential applications in many fields, but its safety and operating standards are of paramount importance and cannot be ignored.
    The way to safety is the first protection. This compound may be toxic and irritating. The person involved should be fully armed and wear special protective clothing. This clothing needs to be able to resist its possible erosion. Wear protective gloves with suitable materials to ensure effective barrier. Protective masks and goggles are also indispensable to prevent it from splashing into the eyes and harming the eyesight.
    The place of operation must be well ventilated. A fume hood can be set up to make the air smooth and disperse harmful gases that may escape in time to prevent them from accumulating and threatening personal safety. The operating table should also be neat and orderly, and the utensils used should be washed and dried in advance to ensure that there are no impurities interfering with the reaction.
    When using it, the action should be precise and cautious. Use a clean medicine spoon or pipette according to the amount. Do not cause too much waste, and do not cause less reaction to not meet expectations. When weighing, the balance needs to be accurately calibrated to ensure that the dosage is correct.
    The reaction process, pay close attention. Temperature, pressure, reaction time and other factors are all related to success or failure and safety. According to the established procedures, if there is any abnormality, stop it immediately, investigate the reason, and do not act rashly.
    Storage methods are also exquisite. It should be placed in a cool, dry and ventilated place, away from fire sources and oxidants. In a sealed container, the label is clearly marked with the name, specification, date, etc., which is easy to check and use.
    In summary, although the 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile has potential, its safety and operating standards need to be kept in mind at all times to ensure the smooth experiment and the safety of personnel.
    Application Area
    2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile, it is also a new product of chemical engineering. Its use, in the field of engineering, can make special effects, and the effect of general diseases is outstanding. And it has special chemical properties, which can be used in fine synthesis. It is an important raw material, which helps to synthesize the product, so that the obtained product has more quality and quality. And in the field of material research, with its basis, new materials can be made. The material has special properties, or it can increase its cost, or add its energy, and it can be used in the way of application. For example, this compound is very powerful in the field of multi-application, and it will be well used by those who are exploring and researching.
    Research & Development
    Today there is a thing called 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile. I am a chemical researcher, and I have worked hard on its research.
    This substance has unique characteristics and may be of great use in many fields. At the beginning, explore its structure, analyze its composition, and explain its chemical properties. Also observe the law of its reaction, and explore its integration and change with other things.
    During the research, I encountered countless problems. However, uphold the heart of research and explore unremittingly. Or change the method of experimentation, or change the angle of observation, hoping to get something.
    Looking at this thing now, I already know one or two. However, the road of development is still long, and I want to expand its application in the fields of medicine and materials to find new paths. I am willing to apply what I have learned, promote its progress, and make more discoveries to benefit everyone. This is the grand ambition of my research and development.
    Toxicity Research
    Recently, the chemical research I have been engaged in has focused on the toxicity of 2-Amino-5-Iodo-4-Methylnicotinonitrile. Detailed investigation of its molecular structure shows that many functional groups exist in it, or are closely related to toxicity.
    From an experimental perspective, under a specific environment, the compound interacts with biological cells, showing a certain degree of inhibition of cell activity. Looking at its effect on cell morphology, some cells appear to shrink and deform, as if cell membranes and organelles are disturbed by it.
    After an appropriate amount of administration of the compound, the behavior of the tested animals is slightly abnormal and the active level decreases. After dissection, some changes were also seen in the organs, such as slightly different liver color and texture.
    In summary, 2-Amino-5-Iodo-4-Methylnicotinonitrile has certain toxicity. Follow-up studies should focus on clarifying its toxicity mechanism to provide a solid basis for prevention and rational application.
    Future Prospects
    Wuguanfu 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile This object is unique in nature and has a wide range of uses. Although what we know today is limited, the prospect of the future is endless.
    With our study of chemistry, we are poor in its mysteries. Although its characteristics and production methods have been obtained today, there is still a long way to go for the expansion of its application. In the future, it may shine in the field of medicine, helping to eliminate diseases and diseases; or in the world of materials, giving new energy.
    As science and technology advance and research deepen, 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile will be unearthed like a pearl, radiating endless brilliance, bringing more surprises to our generation, leading chemistry and other fields to a new realm.
    Historical Development
    The scholars who have heard of the ancient times have studied the principles of all things, and in the field of chemistry, they have also studied a lot. In today's words 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile this thing, and its origin can also be traced. At the beginning, the sages diligently explored the way of chemistry, hoping to gain something new. After several years, we can see the beginning of this thing. At that time, although the method of experimentation was simple, the public was unremitting. As the years went by, the technology gradually refined, and the understanding of it deepened. From the initial discovery to the clarification of its characteristics, it all depends on the efforts of scholars of all dynasties. The road of its development, just like a long river surging, the contributions of the former are indispensable, and future generations should also carry on their ambitions.
    Product Overview
    2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile is one of the important substances involved in my chemical research. This compound has a unique structure. It contains amino groups, iodine atoms and methyl groups. It is cleverly arranged on the side of the nitrile group, giving it specific chemical properties.
    Its preparation requires multiple fine reactions, and the selection of raw materials and the control of conditions are key. The reaction process requires specific temperature, pressure and catalyst environment to preserve yield and purity.
    In the application field, because of its structural properties, it may be used in the research and development of new drugs, or has potential uses in materials science, and is expected to bring new breakthroughs in related fields. I will continue to study it to explore more mysteries and contribute to the development of chemistry.
    Physical & Chemical Properties
    2-Amino-5-Iodo-4-Methylnicotinonitrile is an organic compound. Its physical and chemical properties are quite critical. From the perspective of physical properties, it is either in a specific state or a solid state at room temperature, with a certain melting point and boiling point, which is related to its morphological changes at different temperatures. Its color, odor and other characteristics are also factors for discrimination.
    In terms of chemical properties, the functional groups of amino groups, iodine atoms, methyl groups and cyano groups contained in this compound give it unique reactivity. Amino groups can participate in many nucleophilic reactions, and iodine atoms can undergo substitution reactions under suitable conditions. Although methyl groups are relatively stable, they affect the spatial structure of molecules and the distribution of electron clouds. The presence of cyano groups allows compounds to undergo reactions such as addition, which has potential application value in the field of organic synthesis. The in-depth investigation of its physical and chemical properties will help to better understand and apply this compound.
    Technical Specifications & Labeling
    Today there is a thing called 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile, which is very important in the field of my chemical research. To clarify its process specification and identification (commodity parameters), it is necessary to explore in detail.
    The process specification, from the selection of raw materials to the synthesis method, has rules. The raw materials must be pure, and impurities should not be stored, in order to maintain the quality of the product. During synthesis, the temperature, pressure and time factors need to be precisely controlled. If the reaction temperature is too high, the product is volatile, and if it is too low, the reaction is slow.
    The logo (commodity parameters) cannot be ignored. Its shape, color and taste are all characterizations. The number of purity is related to the quality. And stability, solubility and other parameters are also important for their use. Knowing this process specification and identification (commodity parameters), you can get the delicacy of this thing, which can be used in all kinds of things, or medicine, or materials.
    Preparation Method
    To prepare 2-amino-5-iodine-4-methylnicotinitrile, the method is as follows: First take the raw material, choose the high-quality product. In the kettle, put it in a certain order. With a specific process, control the temperature and pressure. First make the raw material react, observe its signs, and wait for the completion to obtain the initial product.
    After treatment, it is suitable for solvent polyester, remove impurities and keep pure. Then through the refining method, crystallization and separation, a purer product can be obtained. During the process, a monitoring mechanism is set up to check regularly. If there is any deviation, change it in time. And in the operation room, strictly abide by the procedures to ensure safe production. Therefore, it is expected that the preparation of this product will obtain the required quality.
    Chemical Reactions & Modifications
    In the field of chemistry, the reaction and modification of this substance are particularly important.
    The reaction of this substance is often according to specific rules. Or combine with other substances to form a new structure; or change its properties due to changes in conditions. For example, the rise and fall of temperature, the increase and decrease of reagents, can cause the reaction to be different.
    As for modification, it is designed to make it have better performance. Or increase its stability, or change its activity, to suit the needs of diversity. To achieve this purpose, chemists have worked hard to explore different methods.
    Either adjust its molecular structure, or add a special foundation. After many attempts, I hope to achieve the ideal. Although the process is difficult, it is of great significance in the progress of chemistry, and I hope it can be used in various fields to develop its unique uses.
    Synonyms & Product Names
    It is called 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile. It has the same name. Or it is called "2 - Amino - 5 - Iodo - 4 - Methyl Nitrile", which is named after its chemical manufacture. Or there are those with commercial names, which are also different in the market, but they all refer to this thing.
    The names of the things are many and the same name, so it is easy for people in different places and different people to communicate. 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile, its nature and purpose, depending on the name, may also have different interpretations, but its origin is not. Therefore, knowing the same name and business name is of great benefit to the research, creation, and ease of doing things.
    Safety & Operational Standards
    2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile Safety and Operation Specifications
    Husband 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile, chemical research objects are also. If you want to use this object, you must understand its safety and operation regulations before you can protect yourself and experiment smoothly.
    The first word is safe. This object may be toxic, and it can harm the body if you touch it, smell it, or eat it. Therefore, when handling this object, use it in front of protective equipment, such as gloves, masks, and goggles, to prevent it from touching the body or entering the nose. And operate in a well-ventilated place, so that the harmful air will dissipate quickly, do not gather in the room, and harm the human body. If you accidentally touch it, wash it with water quickly; if it enters the eye, you need to rush to a large amount of water and seek medical attention quickly.
    Times and operating specifications. Read the instructions and warnings carefully before use to be familiar with their properties. When measuring, use a precise device, according to the number of prescriptions, not more or less. When mixing and reacting, observe the rules of temperature, time and sequence. When heating, control the heat to prevent it from boiling and sudden ignition. After the reaction, dispose of its waste in accordance with environmental protection regulations, and do not discard it indiscriminately to prevent pollution of the environment.
    In short, when operating 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile, you must be in awe and strictly abide by the rules of safety and operation. In this way, you can achieve experimental success and protect yourself and the environment.
    Application Area
    Today there is a product, named 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile, which is useful in various fields. In the field of medicine, it may help doctors develop new drugs and cure various diseases. Because of its unique chemical structure, it may act on specific targets in the human body, adjust the imbalance of the body, and eliminate diseases and health.
    In material research, it also has potential. It can become a key component of new materials, endowing materials with specific properties, such as enhancing their stability and conductivity. It can be used in many industries such as electronics and construction to help materials improve their performance and meet diverse needs.
    From this point of view, 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile application field is extensive and has great potential. It is an important object of scientific research.
    Research & Development
    Today, there is a thing, called 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile, which is gradually becoming more and more important in our chemical research. We are committed to the research and development of this thing, scrutinizing its properties and exploring its changes.
    Observe its structure, analyze its theory, and hope to understand the mystery of its chemical reaction. After months of study, we have achieved initial results. We know that under specific conditions, it can be wonderfully transformed into various things, or generate new substances, with different properties.
    However, the road ahead is still far away. To generalize this research result and apply it to practice, many difficulties still need to be overcome. We need more precise experimental methods to ensure its stability; find a better way to synthesize and reduce its cost. We hope to make unremitting efforts to promote the research and development of this substance, add new color to the field of chemistry, and seek well-being for the world.
    Toxicity Research
    Toxicity Study of 2-Amino-5-iodine-4-methylnicotinitrile
    Fu 2-amino-5-iodine-4-methylnicotinitrile is a chemical substance. In our toxicity study, its properties and effects are the key to explore.
    At first, observe its structure, or involve biochemical reactions, or interact with cell molecules. After a series of experiments, apply it to the tested organisms at different concentrations. Observe its physiological characteristics, observe its behavioral changes, and measure its biochemical indicators.
    Some of the tested organisms showed physiological abnormalities, or reduced vitality, or metabolic disorder. Biochemical indicators are also abnormal, such as enzyme activity changes, substance synthesis inhibition. This shows that 2-amino-5-iodine-4-methyl nicotinitrile has a certain toxicity.
    The apparent toxicity is also affected by factors such as environment, dose, and biological species. Therefore, in order to know the details, extensive research is needed to clarify its definite impact on ecology and human body, and to provide a solid basis for protection and application.
    Future Prospects
    Husband 2 - Amino - 5 - Iodo - 4 - Methylnicotinonitrile, it is also a matter of transformation. We study it, and we hope that it will not be developed yet.
    This material is special and has many properties. In the way of synthesis, you can ask for angles to help new ones, or to add strength to the essence of materials. In the future, I hope it can be used in the field of technology, like a problem, to solve the suffering of life. I also hope that in the world of material science, I can show my ability to create new materials to meet the needs of the world.
    I am a researcher of chemistry, diligent research, exploring its secrets, and improving its capabilities. With the method of scientific research, we will push it forward, so that this compound can be widely used, benefit the world, and become the heart of our researchers.
    Where to Buy 2-Amino-5-Iodo-4-Methylnicotinonitrile in China?
    As a trusted 2-Amino-5-Iodo-4-Methylnicotinonitrile manufacturer, we deliver: Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements. Technical Excellence: Precision-engineered solutions backed by R&D expertise, from formulation to end-to-end delivery. Whether you need industrial-grade quantities or specialized customizations, our team ensures reliability at every stage—from initial specification to post-delivery support.
    Frequently Asked Questions

    As a leading 2-Amino-5-Iodo-4-Methylnicotinonitrile 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 2-amino-5-iodo-4-methylnicotinonitrile?
    2-Amino-5-iodine-4-methyl nicotinitrile, according to its name, it can be known that this is one of the organic compounds. The structure of this compound is based on nicotinitrile. In nicotinitrile, a derivative of a nitrogen-containing six-membered heterocyclic pyridine ring, the nitrile group (-CN) is attached to the pyridine ring.
    At a specific position of the pyridine ring, and substituents are added. The second position has an amino group (-NH2O), which has the property of a power supplier and can affect the electron cloud distribution and chemical activity of the compound. The fifth position has an iodine atom (-I), which has a large radius and is also characterized by electronegativity. It is in the molecule and may affect the spatial structure and reaction selectivity. At the 4th position, there is a methyl group (-CH
    ), which is an alkyl group, which has the electron-pushing effect and also contributes to the properties of the molecule.
    According to the general understanding of the chemical structure, the structure of 2-amino-5-iodine-4-methyl nicotinitrile is the bone of the pyridine ring, and the nitrile group, amino group, iodine atom and methyl group interact with each other according to their positions to co-construct this unique chemical entity. Its delicate structure is of great interest and research value in the field of organic chemistry.
    What are the main physical properties of 2-amino-5-iodo-4-methylnicotinonitrile?
    2-Amino-5-iodine-4-methyl nicotinitrile, the physical properties of this substance are quite critical, related to its characteristics and uses in various situations.
    First of all, the melting point is the critical temperature at which the substance changes from solid to liquid. The melting point of 2-amino-5-iodine-4-methyl nicotinitrile may be determined by factors such as intermolecular forces and crystal structures. Accurate knowledge of the melting point is of great significance in the purification and identification of substances. If the melting point is clear, the purity of the substance can be judged by the measurement of the melting point. If the measured melting point is consistent with the theoretical value, the purity of the substance is high; if it deviates, it may contain impurities.
    times and boiling point, the boiling point is the temperature point at which a liquid is converted into a gas. It is affected by intermolecular forces, relative molecular weights, etc. For 2-amino-5-iodine-4-methyl nicotinitrile, boiling point information can help operations such as distillation separation. If you want to separate this substance from a mixture, boiling point knowledge is the key. According to the difference in boiling point, the distillation temperature can be accurately controlled to achieve effective separation.
    Furthermore, solubility is related to the solubility of the substance in different solvents. 2-Amino-5-iodine-4-methyl nicotinitrile has different solubility in water and organic solvents such as ethanol and ether. Understanding its solubility is of great benefit in chemical synthesis, drug development and other fields. If a suitable solvent is selected in the synthesis reaction, the reaction can be promoted and the yield can be improved. In drug development, solubility affects the absorption and bioavailability of drugs.
    In terms of appearance, 2-amino-5-iodine-4-methyl nicotinitrile may exhibit a specific color state, such as white crystals, powders, etc. Appearance characteristics are an important basis for preliminary identification of the substance. And changes in appearance may suggest information such as purity and chemical changes of the substance.
    Density is also a physical property that cannot be ignored, which reflects the mass of the substance per unit volume. Density data are of reference value in the storage and transportation of substances. Knowing the density, you can reasonably plan the capacity and transportation method of the storage container to ensure safety and efficiency.
    What are the common synthetic methods of 2-amino-5-iodo-4-methylnicotinonitrile?
    2-Amino-5-iodine-4-methyl nicotinitrile is synthesized by several methods. One is to use nitrogen-containing heterocycles as starting materials, and add amino groups, iodine groups and methyl groups one after another by means of chemical modification.
    First take a suitable pyridine derivative and use it as the parent nucleus. Pyridine rings are active and easy to derive. For specific positions of pyridine rings, iodine atoms are introduced by electrophilic substitution. For electrophilic substitution, electrophilic reagents are used to attack electron-rich pyridine rings, and the reaction conditions, such as temperature, solvent and catalyst type and dosage, are finely regulated, so that iodine atoms fall precisely in the fifth position of the pyridine ring.
    Then, the methyl group is introduced at an appropriate stage. The introduction of this methyl group can be carried out by means of organometallic reagents, such as Grignard reagent or lithium reagent, so that the methyl group can be successfully connected to the fourth position of the pyridine ring.
    As for the introduction of amino groups, there are various paths. Or use an amino-containing reagent to replace the suitable leaving group on the pyridine ring with an amino group through a nucleophilic substitution reaction, thereby obtaining 2-amino-5-iodine-4-methylnicotinitrile. In this process, the purification and characterization of the reaction intermediate is extremely critical, which is related to the purity and yield of the product. After each step of the reaction, it is often necessary to purify by column chromatography, recrystallization and other methods to achieve higher purity requirements.
    There is also a strategy of starting with other heterocyclic compounds and constructing target molecules through multi-step cyclization and substitution reactions. Although this strategy may be more complicated, it can obtain highly selective products under specific conditions due to the characteristics of starting materials, which is also one way to synthesize 2-amino-5-iodine-4-methylnicotinitrile.
    In what areas is 2-amino-5-iodo-4-methylnicotinonitrile applied?
    2-Amino-5-iodine-4-methyl nicotinitrile is useful in the fields of medicine, pesticides and materials science.
    In the field of medicine, such nitrogen-containing heterocyclic compounds often have unique biological activities. Because of the combination of amino and iodine atoms and methyl and nitrile groups in their structure, they can interact with specific targets in organisms. For example, in the development of anti-cancer drugs, they can interfere with the proliferation and differentiation process of cancer cells by precisely docking with cancer cell-related receptors or enzymes to achieve anti-cancer effects; in the research of antibacterial drugs, they can destroy bacterial cell wall synthesis or interfere with bacterial metabolic pathways, exhibit antibacterial activity, and help create new antibacterial drugs.
    In the field of pesticides, the structural properties of 2-amino-5-iodine-4-methyl nicotinitrile give it potential insecticidal and bactericidal properties. It may target the nervous system or respiratory system of specific pests, causing the pest to paralyze or suffocate and die; for some plant pathogens, it may inhibit the growth of mycelium and spore germination, thereby preventing and controlling plant diseases and ensuring crop yield and quality.
    In the field of materials science, this compound can be used as a key intermediate in the synthesis of functional materials. Due to its special structure, it may be introduced into polymer materials, giving special properties such as photoelectric properties and thermal stability to the materials. For example, in the preparation of organic Light Emitting Diode (OLED) materials, it can optimize the luminous efficiency and stability of materials and improve the performance of display technology; in the development of new energy storage materials, it may have a positive impact on the ionic conductivity and structural stability of materials, promoting the development of energy storage devices such as high-performance batteries.
    What is the market outlook for 2-amino-5-iodo-4-methylnicotinonitrile?
    2-Amino-5-iodine-4-methyl nicotinitrile is relevant to many aspects in today's market prospects. In the field of chemical synthesis, it is a kind of unique organic intermediates and its use is gradually emerging. In the field of fine chemicals, with its unique chemical structure, it provides key starting materials for the synthesis of specific drugs and functional materials.
    In the pharmaceutical industry, with the in-depth research and development of drugs for the treatment of various diseases, the demand for characteristic structural intermediates in the creation of many new drugs is increasing. 2-Amino-5-iodine-4-methyl nicotinitrile is expected to emerge in the synthesis of anti-inflammatory and tumor drugs due to its specific drug molecular design requirements. If pharmaceutical companies can deeply explore its application potential and develop efficient synthesis routes based on it, they may have a head start in the competition of new drug research and development.
    In the field of materials science, with the continuous expansion of functional materials research, the demand for structural units with special electronic and optical properties is also becoming more diverse. The iodine atom, amino group and other specific groups of this compound may endow the material with unique electrical and optical properties, which can be used to synthesize optoelectronic materials, sensor sensitive materials, etc. If relevant scientific research institutions and enterprises can seize the opportunity and carry out targeted research and development, it is expected to open up a new material app store.
    However, its market prospects also pose challenges. The complexity of the synthesis process may lead to high production costs, limiting large-scale application. And marketing activities also take time, and downstream companies still need to recognize and accept them. Only by overcoming the technical problems of synthesis, reducing costs, and increasing marketing activities can we fully tap the market potential of 2-amino-5-iodine-4-methyl nicotinitrile and make it shine in the fields of chemical industry, medicine, and materials.
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