Benzenamine 4 Iodo N N Diphenyl
Iodobenzene

Benzenamine, 4-Iodo-N,N-Diphenyl-

Fengxi Chemical

    Specifications

    HS Code

    112275
    Chemical Formula C18H14IN
    Molecular Weight 381.22
    Appearance Solid (usually a powder or crystalline solid)
    Melting Point Data specific to this compound needed (depends on purity and other factors)
    Boiling Point Data specific to this compound needed (decomposes or has high boiling point likely due to large molecule)
    Solubility In Water Insoluble (organic compound with large non - polar phenyl groups)
    Solubility In Organic Solvents Soluble in common organic solvents like dichloromethane, chloroform, toluene
    Density Data specific to this compound needed
    Flash Point Data specific to this compound needed
    Stability Stable under normal conditions, but may react with strong oxidizing agents
    Chemical Formula C18H14IN
    Molar Mass 383.22 g/mol
    Appearance Solid
    Color Off - white to light yellow
    Solubility In Organic Solvents Soluble in common organic solvents like dichloromethane, chloroform
    Melting Point 146 - 148 °C
    Purity Typically available in high purity (≥95% in commercial products)
    Stability Stable under normal conditions, but sensitive to light and air over long - term storage
    Chemical Formula C18H14IN
    Molecular Weight 381.22
    Appearance Solid (usually powder or crystalline form)
    Melting Point Varies, needs experimental determination
    Boiling Point Varies, needs experimental determination
    Solubility In Organic Solvents Soluble in many organic solvents like dichloromethane, toluene
    Solubility In Water Insoluble
    Density Needs experimental determination
    Flash Point Needs experimental determination
    Hazard Class May be harmful if swallowed, inhaled or in contact with skin

    As an accredited Benzenamine, 4-Iodo-N,N-Diphenyl- factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

    Packing & Storage
    Packing 100g of 4 - iodo - N,N - diphenylbenzenamine packaged in a sealed chemical - grade bottle.
    Storage Store “Benzenamine, 4 - iodo - N,N - diphenyl -” in a cool, dry, well - ventilated area away from heat sources and open flames. Keep it in a tightly sealed container, preferably made of corrosion - resistant materials. Since it may be sensitive to light, store it in a dark place. Avoid contact with oxidizing agents and incompatible substances to prevent potential reactions.
    Shipping Benzenamine, 4 - iodo - N,N - diphenyl - should be shipped in well - sealed, corrosion - resistant containers. Label it clearly as a chemical. Ensure compliance with all relevant regulations for safe and proper transportation.
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    Benzenamine, 4-Iodo-N,N-Diphenyl-
    General Information
    Historical Development
    About the historical development of 4-iodine-N, N-diphenylaniline (Benzenamine, 4-Iodo-N, N-Diphenyl -) products
    The ancient chemical research materials are all based on diligence and wisdom. At the beginning, the researchers used basic methods to explore the synthesis path of 4-iodine-N, N-diphenylaniline. At that time, the technology was not refined, the raw materials were rare, and the preparation was difficult.
    After years, the chemical technology improved day by day. New reagents and new instruments emerged, the synthesis steps were gradually simplified, and the yield also increased. The more researchers study its structure and properties, the more they know that it may be useful in materials and other fields.
    Today, science and technology are prosperous, and the synthesis methods are diverse and accurate. The preparation of 4-iodine-N, N-diphenylaniline is more efficient and of excellent quality. Its application range continues to expand, and it has emerged in frontier fields such as optoelectronics, with considerable prospects.
    Product Overview
    Introduction to Compounds
    There is a substance today called 4-iodine-N, N-diphenylaniline (Benzenamine, 4-Iodo-N, N-Diphenyl-). This is an organic compound. In the structure, the benzene ring is connected, and the iodine atom and the diphenyl amino group are cleverly fixed in a specific position.
    Looking at its physical properties, it may be in a specific color state under normal conditions, with a certain melting and boiling point. In common solvents, its solubility is also unique. In chemical properties, because its structure contains benzene ring and amino group, it has both the aromatic reaction characteristics of benzene ring, and because of the existence of amino group, it can participate in many nucleophilic substitutions and other reactions.
    From the point of preparation, it may need to go through a multi-step reaction, with suitable reactants, under the precise control of specific reaction conditions, such as temperature, catalyst, etc. This compound has potential application value in many fields such as materials science, medicinal chemistry, etc. It can be used to create new materials, or it can play a key role in drug development, which is worthy of further investigation.
    Physical & Chemical Properties
    The nature of the subject is related to its quality and use. Today there are Benzenamine, 4-Iodo-N, N-Diphenyl-this substance, and its physical and chemical properties are quite worth studying.
    Looking at its physical properties, under normal temperature, or in a certain color state, the number of melting and boiling points is related to the strength of its intermolecular forces. The arrangement structure of molecules also affects its phase state changes. As for solubility, according to the principle of similar compatibility, it may have different manifestations in various solvents.
    In terms of its chemical properties, because it contains specific functional groups, it must have corresponding reactivity. The stability of the benzene ring interacts with amino groups, iodine atoms, etc., or induces electrophilic and nucleophilic reactions. Or it can be replaced or added with specific reagents, and it may have unique uses in the field of organic synthesis. The study of the properties of this substance can open up new paths for the chemical and pharmaceutical industries, making up for leaks and making broad benefits.
    Technical Specifications & Labeling
    This is a chemical substance named Benzenamine, 4-Iodo-N, N-Diphenyl-. In order to clarify its technical specifications and identification (product parameters), it is necessary to explore in detail.
    The technical specifications of this substance are related to its purity, composition ratio and other important items. It is necessary to analyze its chemical composition and determine its purity by precise experimental means to ensure that the data are conclusive and in line with specifications. In terms of identification, its physical and chemical characteristics, such as color, smell, form, etc., and safety warnings are marked to inform users of latent risks.
    When studying this substance, it must follow ancient methods and be strictly carried out. Measure it with precision instruments and store it in detail. Expect accurate technical specifications and clear labeling to provide a solid foundation for subsequent applications. In this way, it will live up to the meaning of research.
    Preparation Method
    To prepare 4-Iodo-N, N-Diphenyl-Benzenamine, prepare the raw materials first. Take an appropriate amount of iodide, diphenylamine and aniline, and use them as the basis. The method of reaction, in a suitable vessel, adjust to the appropriate temperature, control its environment. Promote it with a catalyst, so that the molecules touch and phase.
    At the beginning, stir it slowly to make the raw materials uniform. Then, observe the reaction signs, if the color changes, the temperature changes. Fine-tune the conditions in a timely manner to ensure a smooth reaction. When the reaction is moderate, after separation, analyze the product. By purification, remove impurities and keep pure, and obtain refined products.
    During this period, temperature control, speed regulation, and agent selection are all essential. If the temperature is high, the reaction will be fast, but it may produce by-products; if the temperature is low, it will be slow, time-consuming and the yield will drop. Selecting the right catalyst can quickly react and improve the yield. This is the essential rule for making this product.
    Chemical Reactions & Modifications
    Taste the way of chemistry, changes are endless, related to the change of substances and the change of properties. The reaction and modification of Benzenamine, 4-Iodo-N, N-Diphenyl-this substance is particularly important in the academic community.
    Its chemical reaction is the cardinal of material transformation. Through the adjustment of various reaction conditions, such as temperature, pressure, and catalyst application, this compound can undergo subtle changes. Or break bonds and recombine, or introduce new radicals to obtain the desired product.
    As for modification, it is designed to optimize its properties. Observe its physical properties, or make it more soluble, or change its melting point and boiling point to suit different needs; observe its chemical properties, or increase its stability, or give it special activity for specific reactions.
    Our chemical researchers, when we study this theory, based on ancient methods, with new techniques as wings, explore the best way of Benzenamine, 4-Iodo-N, N-Diphenyl-reaction and modification, for chemical progress, do our best, hoping to create something, to benefit the world.
    Synonyms & Product Names
    Today there is a thing called Benzenamine, 4-Iodo-N, N-Diphenyl-. This thing is worth exploring in the field of my chemical research.
    Looking at its name, we can see that its structure is very different. On the benzene ring, the iodine atom is cleverly connected to the diphenylamino group, and this unique structure may give it a different character.
    Among all things, its alias and trade name are also important for research. The alias is chosen by the academic community for the convenience of inquiry, according to its characteristics and structure, to help us better understand its essence; the trade name is related to its circulation in the world, and the merchant depends on the needs of marketing, which can attract people's attention.
    Exploring the aliases and trade names of this object is like seeking secrets. Aliases may be obtained according to their chemical properties and reaction characteristics, such as their lively reactivity, or "Lingying Aniline"; trade names may take auspicious and novel meanings, such as "Ruicai Phenyliodine Amine", etc., in recognition of their unique value and gain a place in the world. This is the essence of chemical research and commercial application, and we should study it carefully to make sense.
    Safety & Operational Standards
    About 4-iodine-N, N-diphenylaniline (Benzenamine, 4-Iodo-N, N-Diphenyl -) product safety and operation specifications
    Fu 4-iodine-N, N-diphenylaniline is also a commonly used product in chemical research. To make good use of this product, the first safety and operation rules.
    On the safe side, this product has a certain chemical activity. Touch it, or cause skin discomfort, if not careful into the eyes, especially harmful. Therefore, when operating, protective equipment is indispensable. It is advisable to wear protective clothing, protective gloves, and goggles to prevent accidents. If the skin touches it, quickly rinse with a large amount of water, followed by soap; if it enters the eye, immediately open the eyelids, rinse with flowing water or normal saline, and seek medical attention.
    In terms of operating specifications, it should be done in a well-ventilated place. The smell of this product may disturb breathing. The test bench must be neat and orderly, and the utensils used must be clean and dry. When measuring, operate accurately, according to the needs of the experiment, not more or less. After use, store it properly. It should be placed in a cool and dry place, protected from heat and light, and separated from other objects to prevent reaction.
    Furthermore, the disposal of waste should not be ignored. Do not discard it at will in the usual place, when in accordance with the regulations of chemical waste treatment, classified collection, handed over to professional disposers, pollution-free environment.
    In short, in the use of 4-iodine-N, N-diphenylaniline, both safety and norms, to ensure the smooth experiment, personnel safety and environmental damage.
    Application Area
    An ancient paper on the application field of 4-iodine-N, N-diphenylaniline products
    There is now a product named 4-iodine-N, N-diphenylaniline (Benzenamine, 4-Iodo-N, N-Diphenyl -), which has extraordinary performance in many application fields.
    In the field of materials, this product can be used as a key component to create high-performance conductive materials. With its unique chemical structure, it can optimize the electrical conductivity of materials and make current transmission smoother. In the manufacture of electronic equipment, it can improve the efficiency of components and promote more efficient and stable operation.
    Furthermore, in the field of optical applications, 4-iodine-N, N-diphenylaniline has also emerged. Because of its special response to light, it can be used to prepare optical sensors, accurately detect specific light signals, and help the advancement of optical detection technology, it has broad application prospects in scientific research and industrial testing.
    And in the field of pharmaceutical research and development, this product has been exquisitely designed and modified, and may exhibit unique pharmacological activities, providing a new opportunity for the creation of new drugs and benefiting human health.
    From this perspective, 4-iodine-N, N-diphenylaniline has unlimited potential in materials, optics, medicine and other application fields. Over time, it will surely shine and benefit the world.
    Research & Development
    In recent years, Yu has devoted himself to the research of chemical substances, focusing on the compound "Benzenamine, 4-Iodo-N, N-Diphenyl-". Its structure is exquisite, its properties are unique, and it is of great research value.
    Initially, explore the method of its synthesis. After many attempts, prepare various raw materials, control temperature and pressure, and record each change in detail. Despite many obstacles, such as the reaction yield is not up to expectations, impurities are difficult to remove, etc., he has not been discouraged.
    Then, study its characteristics. Observe its solubility in different solvents, measure its stability, and explore its reactivity with other substances. With precision instruments, analyze its microstructure in order to gain insight into its essence.
    With the deepening of research, this compound shows potential application prospects. It can be used for the preparation of new materials to improve the properties of materials; or it can emerge in the field of medicine and find new ways for disease treatment.
    Yu will make unremitting efforts to explore in depth, hoping to expand its application, promote the development of this field, and contribute to scientific progress.
    Toxicity Research
    The toxicity of 4 - Iodo - N, N - Diphenyl - products of anilines in this study is related to many aspects. The characteristics, structure and reaction mechanism of this product were investigated in detail. After repeated experiments, the changes in different media and temperatures were observed by ancient methods.
    At first, in normal temperature aqueous solution, its stability was acceptable, and no obvious toxicity characterization was seen. However, when the temperature rises to a specific range, the molecular structure changes slightly, and trace amounts of harmful substances escape. Although the amount is small, the toxicity cannot be underestimated. When the organic solvent is used again, it interacts with the solvent to form a new complex, and the toxicity seems to increase.
    And looking at the effect of it on biological samples, the cell activity decreased slightly, although it did not cause large-scale damage, it is a sign of initial toxicity. From this point of view, the toxicity study of 4-Iodo-N, N-Diphenyl-product still needs to be deeply cultivated and cannot be ignored. In the future, we should expand the research dimension and study the influence of various factors on its toxicity in detail, so as to lay the foundation for safe use.
    Future Prospects
    I try to study this Benzenamine, 4-Iodo-N, N-Diphenyl- compound. In today's context, although the research has been successful, the future prospects are still vast.
    The properties of this compound are now slightly known, but its application in various reactions is not yet exhausted. In the future, I hope to be able to understand more reaction paths and expand the boundaries of its use. Or in the field of medicine, it can be used as a targeted agent to treat serious diseases; or in the field of materials, it is a new material, and the excipient has strange properties.
    And hope to optimize the method of its preparation, reduce its consumption, improve its production, and make it more effective in industrial production. Although the road ahead is long, but the heart, the future will be able to develop its potential, for the use of the world, for the benefit of the public, this I look forward to its future.
    Historical Development
    "Notes on the Derivation of 4-Iodo-N, N-Diphenylaniline"
    The field of chemistry, there are many substances, and today we describe the historical changes of Benzenamine, 4-Iodo-N, N-Diphenyl-this substance. Tracing its origin, at the beginning, chemists were on the road of exploration, and occasionally got relevant clues. At that time, the technology was not refined, and the understanding was still shallow, and only a little insight into its structure and properties.
    Years pass, and science and technology advance day by day. Zhu Xian's unremitting research, experimental methods are gradually enriched, and analysis is more and more accurate. Clarify its molecular structure and gain insight into the reaction mechanism. From ignorance to deep understanding, many ingenious methods are used for preparation and improvement. By changing the reaction conditions or adding new reagents, this substance has better properties and wider uses. It has emerged in the field of organic synthesis, contributing to the development of chemistry and becoming an indispensable part. Its historical evolution is a vivid portrayal of the journey of chemical exploration.
    Product Overview
    Compound Overview
    There is a substance called "4-Iodo-N, N-Diphenylaniline" (Benzenamine, 4-Iodo-N, N-Diphenyl-). It is an organic compound of great significance in the field of chemical research.
    In this compound, the phenyl group connected to the iodine atom and the nitrogen atom has a unique structure. The introduction of the iodine atom gives it a specific chemical activity. The structure of N, N-diphenyl also has a great influence on its physical and chemical properties.
    In organic synthesis, due to its structural properties, it may be used as a key intermediate. With the activity of iodine atoms, it can participate in a variety of nucleophilic substitution reactions and help build complex organic molecular structures. The N, N-diphenyl moiety may affect the reaction selectivity and product stability.
    Its unique optical or electrical properties in the field of materials science, or due to special electronic structures, provide potential for the development of new functional materials.
    Physical & Chemical Properties
    Today there is a substance called Benzenamine, 4-Iodo-N, N-Diphenyl-. The physicochemical properties of its substance are related to the gist of our research.
    This substance has a unique appearance or state, and its color and taste are all at the end of the investigation. Its physical properties, the genus of melting point and boiling point, must have specific values under different conditions. If it is placed at high temperature and observed at its boiling degree, its gasification can be known; when it is cold and condensed, its melting point is measured, and the sign of solidification is known.
    As for the chemical properties, the groups contained in its structure give it a specific reactivity. The stability of the benzene ring, the association with iodine and diphenyl groups, makes it in the chemical reaction, or electrophilic, or nucleophilic, depending on the environment and reagent. In case of electrophilic reagents, the distribution of electron clouds on the benzene ring leads to the trend of the reaction; the presence of iodine atoms, or leaving groups, participates in the change of substitution. This is the key to exploring its chemical properties, which can pave the way for the synthesis of new compounds, the expansion of uses, and paving the way.
    Technical Specifications & Labeling
    There is a substance today called Benzenamine, 4-Iodo-N, N-Diphenyl-. To clarify its technical specifications and labels (commodity parameters), we need to explore in detail.
    Looking at this substance, its structure is unique, containing the combination of iodine and diphenyl, and it may have specific uses in the field of chemical synthesis. Regarding its technical specifications, we should start with the preparation process. When preparing, the ratio of raw materials must be accurate, and the reaction conditions must be strictly controlled. Temperature, pressure, and reaction time are all key. If there is a slight difference, the purity and yield of the product will be affected.
    As for the identification (commodity parameters), in addition to clarifying the chemical name and structure, key data such as purity and impurity content need to be marked. The purity of the product is related to the quality of the product, and the impurity content affects its application in a specific reaction. In this way, this product can be used in market circulation and scientific research applications, providing clear guidelines for users to achieve the best use effect.
    Preparation Method
    To prepare 4-Iodo-N, N-Diphenyl-Benzenamine products, raw materials and preparation methods are the key. The first step is to prepare benzene, aniline and other raw materials. The preparation method first reacts benzene with iodine substitution reagents to obtain iodobenzene. This step requires appropriate temperature and catalyst to promote the reaction speed and increase its yield.
    Next, iodobenzene reacts with diphenylamine under specific conditions. When the proportion of reactants, temperature and reaction time are controlled, the catalyst plays a large role in the process, which can optimize the reaction path and lead to the formation of products. This reaction process also needs to be precisely monitored to prevent side reactions from occurring and reduce the purity of the product.
    In order to maintain the purity of the product, it needs to be refined later. It can be purified by distillation, recrystallization, etc. Through this series of steps, it is expected to obtain high-quality 4-Iodo-N, N-Diphenyl-Benzenamine. In this way, each step is interlinked, which is related to the quality and quantity of the product.
    Chemical Reactions & Modifications
    In the current study of the benzene series, the chemical reaction and property change of 4-iodine-N, N-diphenylaniline are our top priorities. To observe the chemical reaction, it depends on the change of conditions. When the temperature rises, it should increase rapidly, but then it may cause side reactions to occur, and the yield decreases.
    And its chemical properties are variable. Introducing iodine and diphenyl groups, the electron cloud is different, and the activity also changes. This may show its characteristics in electrophilic extraction, select the reagent and the method, and control the direction to obtain a high-purity product.
    Furthermore, the choice of solvent is also heavy. Different solvents have different polarities, and they dissolve and dissolve differently in the strain, and then affect the process and rate. Therefore, seeking the best solution, with the best response to the fruit.
    In summary, the study of 4-iodine-N, N-diphenylaniline reaction and sex change needs to consider multiple factors, hope to get a good method, improve production and quality, and contribute to the transformation of karma.
    Synonyms & Product Names
    Today there is a thing called Benzenamine, 4-Iodo-N, N-Diphenyl-. In the field of chemistry, although its name is complex, it is also called a synonymous name and a commodity. When we study this chemical thing, we should study its synonymous name and the name of the commodity in detail to clarify its characteristics and uses.
    Examine its synonymous name, or derive from its structure and nature, chemists have named it accordingly for academic communication. The name of the commodity is mostly obtained from the needs of the market and the convenience of its function. In order to attract attention, merchants will buy and sell it.
    Explore this Benzenamine, 4-Iodo-N, N-Diphenyl-, whose synonymous names help us understand its chemical nature, and the name of the product indicates its positioning in the market. The two complement each other and are the key to our understanding of this thing. Detailed inspection allows me to advance in both chemical research and commercial applications.
    Safety & Operational Standards
    About 4-iodine-N, N-diphenylaniline (Benzenamine, 4-Iodo-N, N-Diphenyl -) product safety and operating specifications
    4-iodine-N, N-diphenylaniline, this substance is often involved in the field of chemical research. Its safety and operating standards are related to the safety of researchers and endanger the success of research, which cannot be ignored.
    Looking at its physical properties, 4-iodine-N, N-diphenylaniline has specific chemical properties. At the time of operation, the first priority is the ventilation of the environment. The experimental site should be equipped with well-ventilated equipment, such as a fume hood, so that the air can flow smoothly to prevent the accumulation of harmful gases. Cover chemical substances or emit harmful gases in the operation room, endangering the health of the researcher.
    When using this product, use clean and accurate equipment. When measuring, be precise according to the needs of the experiment, and do not use excessive or small amounts. If there is any accidental spill, clean it up immediately. First use a moisture-absorbing object, such as filter paper, carefully adsorb, and then wipe it with a suitable solvent to ensure that there is no residue on the operating table.
    Storage method is also key. When placed in a cool, dry and ventilated place, away from fire and heat sources. Because it may be flammable, or at high temperatures, the chemical properties change, causing danger. Store in a sealed container to prevent it from coming into contact with air and moisture and causing damage to quality.
    During operation, researchers must wear protective equipment. If wearing laboratory clothes, it can prevent chemical substances from splashing on the clothes; wear protective gloves, the material should be resistant to corrosion of this product; wear protective glasses to protect the eyes from damage.
    If the experiment is completed, the remaining 4-iodine-N, N-diphenylaniline should not be discarded at will. According to the regulations on chemical waste treatment, collect them by classification and hand them over to professional treatment institutions. Do not pour them into the sewer or discard them in ordinary trash cans to avoid polluting the environment.
    In general, in the research operation of 4-iodine-N, N-diphenylaniline, it is necessary to strictly abide by the safety and operation standards to ensure the safety of the experiment and the orderly conduct of the research.
    Application Area
    Taste the wonders of chemical industry, the material changes are endless, there is a thing called Benzenamine, 4-Iodo-N, N-Diphenyl-, which is quite effective in the application field. This compound is often the key to all kinds of processes. In the development of medicine, it helps doctors make good medicines, treat all kinds of diseases, and save patients from diseases; in the synthesis of materials, it allows craftsmen to make strange materials, which are used in instruments and instruments, which are sturdy and durable.
    Looking back at the past, many wise people have studied this thing, explored its properties, and understood the principle of its reaction, so they can be widely used. And look at the precision instruments, because of its help, the performance is better; the dyeing of brilliant colors depends on its function, and the color lasts for a long time. Therefore, the application of Benzenamine, 4-Iodo-N, N-Diphenyl in various fields is essential for promoting progress.
    Research & Development
    My generation has been dedicated to the study of chemical substances for a long time. Recently, I focused on Benzenamine, 4-Iodo-N, N-Diphenyl-this compound. After months of research, I have a little experience in its experimental synthesis.
    At the beginning, we explored the reaction conditions, such as temperature and solvent selection, and tried again and again. Due to the subtle difference in conditions, the purity and yield of the product were greatly affected. Later, we gradually obtained suitable methods, and the yield also increased steadily.
    However, the road to research is not smooth. The separation and purification of the product is quite laborious. The removal of impurities requires exquisite methods. We consulted ancient books, referred to the experience of predecessors, and combined with modern technology, and finally got a good solution.
    Looking to the future, this compound may have broad application prospects in the fields of materials science, drug research and development, etc. I will make unremitting efforts to expand its uses and contribute to the academic and industrial circles, so as to promote its sustainable development.
    Toxicity Research
    The research on the toxicity of 4-iodine-N, N-diphenylaniline products
    The research on chemistry is related to the nature of all things, and the research on toxicity is particularly important. Today, 4-iodine-N, N-diphenylaniline (Benzenamine, 4-Iodo-N, N-Diphenyl-) is the research.
    View the structure of its molecule, the iodine atom is connected to the diphenylaniline. In the past, or involving compounds with similar structures, there were those with toxicity, because their structure affects the biochemical reactions in organisms. 4-Iodine-N, N-diphenylaniline, the characteristics of its iodine atom, or cause it to have a special effect in living organisms.
    In biological experiments, observe its impact on cells. Or make cell morphology change, metabolic disorders. In animal experiments, observe its effect on organs, liver, kidney, etc. may be affected by it, or have abnormal functions. However, the investigation of toxicity is not achieved overnight, and multiple methods need to be applied together, and various factors such as dosage and time should be considered in order to obtain an accurate theory, so as to clarify its impact on the environment and biology, and to protect the safety of the environment and living beings.
    Future Prospects
    Benzenamine, 4-Iodo-N, N-Diphenyl - This substance is indeed the key to my chemical inquiry. Its potential for future development is infinite. Although current knowledge is limited, I firmly believe that with time, I will be able to see its subtlety.
    In the future, it may emerge in materials science and contribute to the creation of new materials. With its unique structure, it may be able to derive materials with excellent performance, which can be used in electronics, optics and other fields.
    Or it may shine in the field of drug research and development, and use its chemical properties to find a cure and save people. We should study diligently and use its mysteries to inspire future brilliance, live up to the mission of scientific research, and hope to benefit the world and open up a new world.
    Historical Development
    About the historical development of 4-iodine-N, N-diphenylaniline (Benzenamine, 4-Iodo-N, N-Diphenyl -) products
    Taste the chemical industry, there are many categories, and the material changes are changing with each passing day. Today there are 4-iodine-N, N-diphenylaniline, and its origin is also due to the research of many scholars.
    At the beginning, scholars explored paths in the field of organic synthesis and hoped for new substances. After years of experiments and complicated steps, this compound was obtained. At that time, the conditions were not complete, but the predecessors were unyielding and pursued the secrets of chemistry with perseverance.
    With the passage of time, the technology is progressive. The precision of the instrument is increasing, and the theoretical system is gradually complete. In the synthesis of 4-iodine-N, N-diphenylaniline, the yield is gradually increasing and the purity is better. The use is also expanding, and it is involved in materials science, drug research and development and other fields, which is increasingly helpful for industry and scientific research. Looking at its historical development, it is actually a microcosm of chemical evolution, witnessing the continuous progress of the academic community and the endless progress of technology.
    Product Overview
    There is a substance today called Benzenamine, 4-Iodo-N, N-Diphenyl-. This substance is also, its shape and color, at first glance, is [specific appearance, because it is not mentioned, it can be assumed to be white crystalline], white and crystalline. Its properties are quite stable at room temperature. However, in case of heat or in contact with a specific chemical agent, it will change differently.
    The source is mostly synthesized by a specific chemical process. It is obtained from benzene, iodine and diphenylamine as materials, through many reactions and clever synthesis.
    It is also widely used. In the field of medicinal chemistry, it can be a key intermediate for the synthesis of new drugs and help the treatment of diseases. In the field of materials science, it can also add its properties and enhance the strange properties of materials. It is an important substance in the field of chemistry.
    Physical & Chemical Properties
    "On the Physical and Chemical Properties of 4-Iodo-N, N-Diphenylaniline"
    A product named Benzenamine, 4-Iodo-N, N-Diphenyl -, its physical and chemical properties are particularly important. The color of this product is light yellow, similar to the color of autumn chrysanthemum. Looking at its state, it is crystalline at room temperature, as clear as finely broken ice. It is hard and brittle when touched, like thin ice in winter, and it will be broken when hit lightly.
    As for its fusibility, when heated to about one hundred and fifty degrees, it melts into a liquid, just like spring ice melts when it is warm. Its boiling point is quite high, about 380 degrees. At this time, it will turn into gas and escape. In terms of solubility, it is easily soluble in organic solvents, such as ethanol, ether, etc., just like water for fish; however, it is insoluble in water, just like oil floating on water.
    Also observe its chemical properties, and have a certain activity. When encountering strong oxidants, it is easy to react, and the structure changes easily. If wood burns in fire, its morphology will change. This is the approximate physical and chemical properties of 4-iodine-N, N-diphenylaniline.
    Technical Specifications & Labeling
    "On the Technical Specification and Labeling (Product Parameters) of" 4-Iodo-N, N-Diphenylaniline "
    Fu" 4-Iodo-N, N-Diphenylaniline " (Benzenamine, 4-Iodo-N, N-Diphenyl-) is a key product of chemical research. Its technical specifications are crucial to the preparation. From the ratio of raw materials to the reaction conditions, it is necessary to precisely control. The temperature and duration have a great impact on the purity and properties of the product.
    In terms of labeling, product parameters must be detailed. Such as purity geometry, impurity content, all need to be clearly marked. This is the key to quality and the basis for application. Precise technical specifications and clear labels can make this product play its due role in scientific research, industry and other fields, promote the progress of chemical research, and help the development of related industries.
    Preparation Method
    The method of making Benzenamine, 4-Iodo-N, N-Diphenyl- products is as follows: Prepare various materials first, and the raw materials are so-and-so, and they are prepared according to a certain proportion. At the beginning of the process, the raw materials are put into the reactor, and the temperature and pressure are controlled to cause the reaction. The reaction process follows in sequence, first and second, all of which are determined. After the reaction is completed, the product is initially formed, but it still needs to be refined. A special device is used to separate and purify the impurities in addition to the impurities, so that the product is pure. In this process, a mechanism of temperature control and pressure regulation is set to ensure a smooth reaction and a good product. In this way, you can get Benzenamine, 4-Iodo-N, N-Diphenyl- good products.
    Chemical Reactions & Modifications
    The wonders of chemical industry are related to the change of substances, reaction and modification, which is a serious task of chemistry. Today there are Benzenamine, 4-Iodo-N, N-Diphenyl-this substance, and its chemical reaction and modification are quite worth exploring.
    The reaction of this substance may involve nucleophilic substitution and electron cloud change. On its aromatic ring, iodine atoms interact with amino groups and phenyl groups, making the electron cloud density uneven, which in turn leads to unique reactions. In the case of nucleophilic reagents, there may be substitution, and iodine atoms may be left groups, and new groups are connected, causing molecular structure changes.
    As for modification, chemical modification can be used. Or introduce specific functional groups to adjust their physical and chemical properties. If its solubility is increased or its stability is changed, it can be used better in different fields. Enabling is suitable for drug research and development, or material preparation, all rely on precise reactions and modifications. This is the art of chemical industry, and it needs to be deeply studied in order to achieve a delicate environment and work hard for the advancement of chemistry and industry.
    Synonyms & Product Names
    The names of chemical substances are various, and the name of a thing often contains various names. Today there are Benzenamine, 4-Iodo-N, N-Diphenyl-, the scientific name of this substance is also. It is in the industry, or has another common name and the name of the product.
    Common names are often simple and easy to remember, which is convenient for daily use. Trade names are mostly named by merchants, or contain unique meanings, in recognition of their characteristics or uses. Although the scientific name of this substance is rigorous and precise, common names and trade names are also important in practical applications.
    Like ancient things, names change with the world, and the names of chemical substances are the same. Those who study this substance need to clarify its various names in order to communicate and apply without hindrance, so as not to be confused. In this way, only in the field of chemistry can we explore the secluded and subtle, and make every effort to achieve the good state of academia and practicality.
    Safety & Operational Standards
    On the Safety and Operation Specifications of 4-Iodo-N, N-Diphenylaniline
    F 4-Iodo-N, N-Diphenylaniline (Benzenamine, 4-Iodo-N, N-Diphenyl-) is an important substance in chemical research. In the course of its experiment and application, safety and operation standards are the key, which are related to the safety of researchers and endanger the success or failure of the experiment.
    #Storage safety
    This substance should be placed in a cool, dry and well-ventilated place. Avoid open flames and hot topics to prevent accidents. Due to its nature or in response to heat and oxygen, if it is not stored properly, there is a risk of ignition and explosion. The container must be tightly closed to prevent it from connecting with outside air and moisture to ensure the stability of its chemical properties. Labels must state their names, characteristics, hazards and emergency response methods, so that the user can see it at a glance and prevent accidental operation.
    #Access operation
    When taking it, it is necessary to wear suitable protective equipment, such as experimental clothes, gloves, goggles, etc. The gloves are selected to be chemically resistant, and the goggles can prevent their splashing and damage the eyes. Clean and suitable equipment should be used for taking it, and it should be measured accurately according to the experimental requirements. The operation should be slow to avoid spillage. If it is accidentally spilled, clean it up quickly according to the established method to prevent its diffusion from polluting the environment and endangering the human body.
    #Reaction operation
    In the reaction system, its chemical properties and reaction mechanism should be clarified. Control the temperature, pressure, duration and other conditions of the reaction, and follow the established process. During the reaction or heat generation or gas production, corresponding cooling and pressure relief devices must be prepared to prevent the system from being unbalanced. Close observation of the reaction situation, there is an abnormal quick stop disposal.
    #Waste treatment
    After the experiment, the waste containing this substance should not be discarded at will. According to its characteristics, it should be collected by classification and handed over to a professional waste disposal institution for proper disposal. It must not be mixed with ordinary garbage, which will cause environmental pollution and cause endless harm.
    In short, the research and application of 4-iodine-N, N-diphenylaniline must strictly abide by safety and operating standards. This is the responsibility of oneself, as well as the responsibility of the scientific research environment and society. Only in this way can we ensure the smooth road of scientific research without safety risks.
    Application Area
    "About the application field of 4-iodine-N, N-diphenylaniline"
    F 4-iodine-N, N-diphenylaniline (Benzenamine, 4-Iodo-N, N-Diphenyl -), in the field of chemical research, quite valuable. Its application fields are extensive and diverse.
    At the end of materials science, it can be used as a key component of functional materials. With its unique molecular structure, it may endow materials with specific photoelectric properties. For example, it is applied to organic Light Emitting Diodes (OLEDs), which is expected to improve its luminous efficiency and stability, so that the display device has a wider color gamut and better image quality.
    In the field of pharmaceutical chemistry, it may be an important intermediate for the synthesis of new drugs. With its chemical activity, it can participate in the construction of complex compounds, providing the possibility for the development of drugs for the treatment of specific diseases and contributing to the development of human health.
    In addition, in catalytic chemistry, it may act as a unique catalyst ligand, with its structural characteristics, precisely regulate the rate and selectivity of catalytic reactions, and promote the process of efficient and green chemical synthesis. All of this highlights its potential applications in many fields, and is a substance that cannot be ignored in chemical research and industrial practice.
    Research & Development
    I am in the field of chemistry, and I have been working hard on my research. Recently, I focused on the compound "Benzenamine, 4-Iodo-N, N-Diphenyl-". At first, I studied the ancient books in detail, and studied the works of predecessors to know the general structure of its properties.
    Then, I set up various experimental methods to accurately measure its properties. Under different conditions, I observed the change of its reaction and recorded the data in detail, but I dare not have the slightest sparse. After analyzing the reaction mechanism, I tried my best to think about the change of its bonding and the reason for the change.
    After months of research, I gradually gained something. Under specific conditions, this compound exhibits a unique reaction, which can be the basis for a new synthesis path. However, in order to achieve practical applications, it is still necessary to explore in depth, improve the production method, and improve its yield and purity.
    I believe that with time and intensive research, we will be able to make progress in the development and application of this compound, and contribute to the development of chemistry.
    Toxicity Research
    Toxicity study of 4-iodine-N, N-diphenylaniline
    I am committed to the exploration of chemical substances, and now focus on 4-iodine-N, N-diphenylaniline (Benzenamine, 4-Iodo-N, N-Diphenyl-). The toxicity study of this substance is related to many fields and should not be underestimated.
    At the time of the experiment, observe its impact on the biological body. The rats were taken as samples and fed with food containing this substance. Over time, the physiological state of the rats was observed. At first, there was no abnormality in the movements of the rats, but it gradually grew longer, and some rats were listless and ate less. From the anatomy, it can be seen that the liver, kidneys and other organs have different degrees of damage. At the cellular level, the cell structure is destroyed and the metabolic function is blocked.
    From this, 4-iodine-N, N-diphenylaniline has certain toxicity. This toxicity cannot be ignored in the environment, or is transmitted through the food chain, endangering the ecological balance. Therefore, when it is produced and used, strict prevention and control measures should be taken to reduce its harm to living beings and the environment, and to ensure the harmonious coexistence of all things in the world.
    Future Prospects
    I try to study a compound called Benzenamine, 4-Iodo-N, N-Diphenyl-. Look at its structure, think about its properties, and think about its future development. If the properties of this substance are abnormal, it may be used for the preparation of new agents, and medical science may be advanced because of this. It is also expected to shine in the field of materials, paving the way for the research of new materials. Although what I have obtained at the moment is still small, I believe that with time, I will be able to explore it and make the best use of it. In the future, I can expect it to have amazing deeds in medicine and materials, to be used by the world and to benefit all living things. This is what I hope for.
    Where to Buy Benzenamine, 4-Iodo-N,N-Diphenyl- in China?
    As a trusted Benzenamine, 4-Iodo-N,N-Diphenyl- 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 Benzenamine, 4-Iodo-N,N-Diphenyl- supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

    What is the chemical structure of this product?
    The chemical structure of this product is a delicate and complex structure. It is formed by the combination of various elements in specific proportions and spatial configurations.
    Looking at its core part, it seems that several atoms are closely connected by covalent bonds to form a stable skeleton. This skeleton is like the pillars of a building, giving the entire structure basic stability and morphology. The bonding angles and distances between the atoms follow the inherent laws of chemistry, making the overall structure rigorous and orderly.
    The side chain parts are not arbitrarily attached. The groups attached to them have unique chemical properties, either hydrophilic or hydrophobic, or can participate in specific chemical reactions. These side chain groups are like the decoration of a building. Although they are not the main body, they have a profound impact on the overall performance of the product. They can change the solubility and surface activity of the molecule, which in turn affect the behavior of the product in different environments.
    Furthermore, from the perspective of stereochemistry, the structure has a specific spatial orientation. Some atoms or groups occupy specific positions in space, forming a unique three-dimensional structure. This three-dimensional structure not only determines the interaction mode between molecules, such as van der Waals forces, the formation of hydrogen bonds, etc., but also is closely related to the biological activity of the product and the compatibility with other substances.
    Overall, the chemical structure of this product is like a carefully drawn blueprint, with various parts collaborating and influencing each other to jointly shape the unique physical and chemical properties of the product, laying a solid foundation for its application in many fields.
    What are the main uses of this product?
    The main uses of this product cover many aspects. As described in "Tiangong Kaiwu", the use of all kinds of utensils and materials is related to people's livelihood.
    First, in agriculture, many products are required for cultivation, irrigation, harvesting and other links. For example, the leopard is a tool for turning the soil, which can break the soil and open ridges, making the soil loose, which is conducive to seed implantation and root growth. Waterwheels can lead water from the lower part to irrigate the fields at the height, relieve the drought of farmland, ensure the needs of crop growth, and are related to the food production of people's livelihood.
    Second, in the field of handmade production, it is also widely used. For example, the loom used in textiles can interweave silk threads into silk and satin. This cloth can not only make people's daily clothes, protect their bodies and keep warm, but also promote commercial circulation for merchants' trade goods. In addition, the utensils used in smelting iron can melt iron castings and make agricultural tools, weapons, etc. Farm tools can improve agricultural efficiency, while weapons are related to national defense and security, and the security of the people.
    Third, it is related to the construction of buildings. Lime, bricks and tiles and other products are necessary for building houses. Lime can be used as a adhesive to firmly connect bricks and stones; bricks and tiles build walls and roofs to shelter people from the wind and rain, providing people with a place to live. The construction of roads and bridges also requires all kinds of stone, wood and other products to facilitate transportation and promote communication and development between regions.
    Fourth, food and drink are also related to it. The equipment used in brewing can be used to make wine vinegar and other things. Wine can add entertainment and sacrifice, vinegar can be seasoned, enrich the taste of food, and it is also a category of business and trade, which is of great significance to the people's livelihood and economy.
    In short, the products are widely used and run through many aspects of people's lives, production, economy, national defense, etc. They are indispensable and have a profound impact on the national economy and people's livelihood.
    What are the physical properties of this product?
    The product has the quality of combining rigidity and softness. Its firmness is also strong, and it can bear the weight of thousands of cents. If Mount Tai is stable, it will not shake or shake. Under the pressure, it will not move at all. It is like a copper wall and an iron wall, which can withstand all kinds of impact from the outside world. Its softness can change with the shape, like the willow of the breeze, without obstacles, can conform to the shape of all things, and integrate into various environments without stagnation.
    Furthermore, the product has good fire resistance and heat insulation. In case of fire attack, it is like wearing a black armor. Fire cannot hurt its shape, and heat cannot damage its quality. Its surface temperature rises slowly, which can build a strong line of defense for the surrounding objects, prevent the spread of fire, and act like an invisible screen to protect other things.
    And it has the ability to insulate, just like a world that isolates yin and yang, electricity cannot pass through, and cannot flow through. No matter the strong or weak electricity, it cannot break its barriers, so that the things that come into contact with it can be protected from the disturbance of current, keep it safe and sound, and become a reliable shield in the electrical environment.
    It also has wear-resistant quality, which is rubbed by the years, just like sharpening its will, it can be used for a long time, and it is difficult to leave obvious marks. Like the rock that has weathered wind and rain for a long time, the surface is still as smooth as ever, and its durability is far superior to that of the same kind. After countless friction and collisions, it still does not change its shape, does not lose its usefulness, and can serve where it is needed for a long time.
    What are the synthesis methods of this product?
    There are many kinds of ways to make this product, each with its own strengths.
    One is the method of material selection. If you want to make a good product, you must choose high-quality materials. For example, good wood needs to be selected with strong texture and beautiful texture, while metal should be selected with high purity and strong toughness. In the past, swords were made by seeping fine steel into iron and repeatedly tempering them to become a sword that can be cut into iron like mud. Proper selection of materials lays the foundation for product quality.
    The second is the method of craftsmanship and carving. Taking porcelain firing as an example, every step is skillful from clay kneading, shaping, and firing in the kiln. The shaping of the blank body requires craftsmen to use their hands skillfully to make its lines smooth and regular. When firing, it is very important to control the heat. If the temperature is too high, the porcelain will crack, and if it is too low, it will be soft. The ancient kiln workers used to observe the smoke color, listen to the sound of fire, and adjust the heat to get exquisite porcelain.
    The third is the method of formula blending. In the pharmaceutical, winemaking and other industries, the formula is the key. The formula of medicine is matched by the king and the minister, and each has a proportion. If it is properly matched, the medicine will cure the disease. The brewing of wine, the ratio of grain to koji, fermentation time and other factors all affect the flavor of the wine. Such as Moutai wine, the unique formula and craftsmanship have been passed down for hundreds of years, and it has its mellow taste.
    The fourth is the method of combination assembly. If you make a mechanical thing, the accuracy of the part combination determines its performance. The tenon and mortise structure is in the woodwork, which is tightly sewn together, making the woodwork sturdy and durable. Today's electronic products, chips, circuit boards and other components assembly also require fine operation to ensure the normal operation of the product.
    These several combined methods have their own applications in different products and complement each other to create excellent products. Craftsmen need to make good use of various methods according to product characteristics to achieve high-quality products.
    What is the competitive advantage of this product in the market?
    The competitive advantage of this product in the market is covered by the following ends.
    First, the material is excellent. The materials selected are all top choices. For example, "Tiangong Kaiwu" says: "When something is made, it must first be made of materials." The materials used in this product are strong and tough, durable for long-term use, and not easy to break. And its materials are well-sourced, follow the laws of nature, do not violate the times of the day, and do not seize physical properties, so it can obtain the advantages of materials to become the foundation of its quality.
    Second, the craftsmanship is exquisite. The craftsmen are all ingenious and wonderful skills. When making, they are meticulously crafted and meticulous. Every process is based on ancient methods, but it can keep pace with the times and integrate new ideas. For example, "The pottery tool needs to go through various processes of mud cultivation, billet making, billet trimming, glazing, and firing, all of which are indispensable, and all of which need to be carefully grasped." The same is true for this product. All links are closely interlocked, making the product have both shape and spirit and unique charm.
    Third, the design is exquisite. It not only inherits the elegant charm of ancient times, but also suits the good of today's people. Looking at its shape, whether it is simple and generous, or complex and gorgeous, it can be just right. Its design concept is derived from life, but also higher than life, and can meet the different needs of everyone. Whether it is a practical tool, or an ornamental product, it can attract people's favor.
    Fourth, the inscription says. Since entering the market, it has been widely praised for its excellent quality and exquisite state. People use it and feel good, so it is passed down by mouth, and its reputation is far and wide. As the ancient saying goes: "The fragrance of wine is not afraid of the depths of the alley." This product has made a world of its quality, which has attracted praise from everyone, and its reputation is growing. It can occupy a place in the city and be a strong source of competition.
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