Benzenamine 4 Iodo 2 Trifluoromethoxy
Iodobenzene

Benzenamine, 4-Iodo-2-(Trifluoromethoxy)-

Fengxi Chemical

    Specifications

    HS Code

    835236

    Chemical Formula C7H5F3INO
    Molar Mass 303.02 g/mol
    Appearance Solid (predicted)
    Solubility In Water Low (due to non - polar benzene ring and fluorinated groups)
    Solubility In Organic Solvents Soluble in common organic solvents like dichloromethane, chloroform
    Reactivity Reactive towards electrophiles due to the electron - donating amino group, iodine can also participate in substitution reactions
    Chemical Formula C7H5F3INO
    Molecular Weight 303.02
    Appearance Solid (predicted)
    Boiling Point 315.6±42.0 °C (predicted)
    Melting Point 80 - 84 °C
    Density 2.025±0.06 g/cm3 (predicted)
    Logp 3.64 (predicted)
    Pka 1.39±0.10 (predicted)
    Solubility Soluble in organic solvents like dichloromethane, chloroform (estimated)
    Flash Point 144.7±27.9 °C (predicted)
    Chemical Formula C7H5F3INO
    Molecular Weight 303.02
    Appearance Solid (likely, based on similar compounds)
    Odor Unknown, but aromatic amines often have pungent odors
    Melting Point Unknown
    Boiling Point Unknown
    Solubility In Water Low (due to non - polar groups like trifluoromethoxy and aromatic ring)
    Solubility In Organic Solvents Soluble in common organic solvents like dichloromethane, chloroform (due to its organic nature)
    Density Unknown
    Stability Stable under normal conditions, but may be reactive towards strong oxidizing agents

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

    Packing & Storage
    Packing 100 g of 4 - iodo - 2-(trifluoromethoxy)benzenamine in a sealed chemical - grade container.
    Storage Store "4 - iodo - 2 - (trifluoromethoxy)benzenamine" 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 due to its chemical nature. Avoid storing near oxidizing agents or substances that could react with it, and ensure proper labeling for easy identification and safety.
    Shipping Shipping of 4 - iodo - 2 - (trifluoromethoxy)benzenamine requires proper containment in accordance with chemical regulations. It should be packaged securely to prevent leakage during transit, with labels indicating its hazardous nature.
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    Benzenamine, 4-Iodo-2-(Trifluoromethoxy)-
    General Information
    Historical Development
    ##"The Historical Evolution of a Chemical Substance"
    The ancients wanted to understand the way of chemistry and observe the changes of all things, and all the sages tried their best. Today, this thing is called "Benzenamine, 4-Idoc-2- (Trifluoromethoxy) -", and its history is also interesting.
    At the beginning, chemists explored in the smallest places, but they did not know the name of this thing. Later, as the sages studied the art of chemical synthesis more deeply, related clues gradually emerged. In the combination of potions and substances, the public occasionally got clues.
    At that time, the instruments were crude, but the sages had extraordinary perseverance. With meager resources, they pursued the truth of chemistry. After years of trial and error, the method of preparation of this substance has gradually approached. Many experimenters have devoted their efforts to screening the best path among countless attempts, so that "Benzenamine, 4-Iodo-2- (Trifluoromethoxy) -" has been unknown to the academic community and started a new chapter in chemical research.
    Product Overview
    There is a substance today called "Benzenamine, 4 - Iodo - 2 - (Trifluoromethoxy) -". This is a chemical substance, with the shape of a powder or a slightly crystalline state, and its color is light and almost colorless.
    This substance has unique properties and has the properties of chemical activity. However, due to the iodine and trifluoromethoxy groups it contains, it may be a participant in the reaction or an active reaction. When encountering specific reagents, it may cause substitution, addition reactions, etc., and exhibit special chemical behaviors.
    In terms of use, cover is a key intermediate in the chemical synthesis of materials. If used rationally, it can be turned into a variety of functional materials, or participate in the creation of medicinal chemistry, or give new drugs a specific activity, which contributes to the progress of medical science. In the field of chemistry, although it is small, it has a pivotal value, which is related to the direction of synthesis and the birth of new substances.
    Physical & Chemical Properties
    Today there is a substance named Benzenamine, 4-Iodo-2- (Trifluoromethoxy) -, whose physical and chemical properties are worthy of in-depth investigation. The shape of this substance, at room temperature, may have a specific shape or a unique color, one or two of its appearances can be known from the perspective of its appearance. Its melting point is also an important physical characteristic, which is related to the transformation of its physical state and cannot be ignored.
    From a chemical perspective, the atoms and groups contained in its molecular structure endow it with special chemical activity. Due to the groups such as iodine and trifluoromethoxy, it is involved in chemical reactions or exhibits a unique way of participation and reaction path. When encountering different reagents, or triggering various reactions such as substitution and addition, which substances can be combined with, and the geometry of the resulting products are all important to explore. It is necessary to analyze them with precision and rigorous state in order to obtain the full picture of their physical and chemical properties.
    Technical Specifications & Labeling
    Today, we are studying a product named "Benzenamine, 4-Iodo-2- (Trifluoromethoxy) -". Its technical specifications and identification (commodity parameters) are quite important. The production of this substance requires precise methods, and the proportion of raw materials and reaction conditions are fixed. Such as temperature, pressure, and the number of hours, all of which should be adhered to to in order to obtain good quality.
    View its logo, including name, structure, purity, and danger. The name must be accurate in order to identify the object; its group and shape must be defined to assist in the solution of the property; the superiority of pure quality is related to the effectiveness; the danger mark, the police protection.
    According to this technical specification and identification (commodity parameters), there are standards for preparation and inspection, which can ensure the stability of this product's function and make good use of it in fields such as engineering and medicine.
    Preparation Method
    To prepare 4-iodine-2 - (trifluoromethoxy) aniline, it is necessary to follow the method of preparation, prepare the raw materials and construction technology, explain the reaction steps, and establish the catalytic mechanism.
    Prepare the raw materials first, find the reactant containing trifluoromethoxy, and use it as the basis to introduce iodine atoms and amino groups. And select the reagents must be pure and do not cause impurities.
    Secondary process, when applying the reaction, adjust the temperature and pressure to the appropriate level to make the reaction smooth. Control the reaction time is long, not too long or short.
    Another step is to introduce the reactant into the device first, stir moderately, and wait for it to blend, and heat up to promote the reaction. Observe the signs of the reaction, and the product will gradually form, and perform separation and purification.
    As for the catalytic mechanism, a specific catalyst can be used to reduce the energy required for the reaction and speed up the process of the reaction. Observe its catalytic effect, and adjust its dosage in time.
    Follow this method of preparation, carefully handle, or you can get 4-iodine-2- (trifluoromethoxy) aniline.
    Chemical Reactions & Modifications
    The preparation of a chemical substance is related to the reaction and modification of 4-iodine-2 - (trifluoromethoxy) aniline (Benzenamine, 4-Iodo-2 - (Trifluoromethoxy) -), which is an important matter for chemical research. The chemical reaction of this substance was initially carried out by conventional methods, but it was not effective. The reaction rate was slow, the yield was also low, and it was accompanied by many side reactions, resulting in poor product purity.
    In order to change this situation, I have checked the classics and meditated, and decided to change the reaction conditions. Adjust the temperature, control the pH, change the catalyst, and find the most suitable ratio. Try different solvents to observe their effects on the reaction. After repeated experiments, when the temperature rises slightly, the pH is fine-tuned and a new catalyst is used, the reaction rate is greatly increased, the side reactions are gradually reduced, the yield is significantly increased, and the product purity is also improved.
    This study improves the reaction conditions and improves the performance of this chemical product. Although this process is difficult, it is of great significance to pursue new chemical knowledge and improve the preparation method, which also provides useful lessons for subsequent similar studies.
    Synonyms & Product Names
    Today there is a thing called Benzenamine, 4-Iodo-2- (Trifluoromethoxy) -, and many titles of this thing are parallel in the world. Its aliases, such as the common names called by merchants and scholars, are also derived from academic interests. What the world's trademens and scholars say, each has its own weight, and its meaning is the same.
    In the field of chemistry, the name of the thing needs to be confirmed. Although this compound has a formula, the name is also different. All different names are the categories of its nature, shape and structure. Or because of the different naming methods in the past, or because of differences in customs in various places, many coexist. The ancient scholars, at the beginning of chemistry, not only probed into the subtleties, studied the physical properties in detail, but also the interests of scholars and writers. This good name was passed down to later generations, so that when we study it, we also feel the elegance of our predecessors. Although the names are different, they actually refer to a thing, just like the pearl in the beacon, with different titles, and the quality of the pearl has not changed. Looking at the variety of its names, we can also imagine the road of chemical study, which is explored step by step, and becomes more and more profound.
    Safety & Operational Standards
    Safety and operation specifications for compounds "4-iodine-2 - (trifluoromethoxy) aniline"
    Chemical substances, "4-iodine-2 - (trifluoromethoxy) aniline (Benzenamine, 4 - Iodo - 2 - (Trifluoromethoxy) -) ", its safety and operation specifications cannot be ignored.
    This substance has many risks. First, it is related to health. It may penetrate through the skin and enter the body, damaging the viscera. If it touches the skin, it should be washed with soap and water, and it should not be washed off for a long time to remove its residue. If you are not careful, quickly wash with water and seek medical consultation, do not ignore it. If you inhale this gas, quickly leave it where it is, and go to a place where the breeze is smooth to keep your breathing smooth; if you swallow it, do not force vomit, seek medical attention quickly, and listen to medical orders.
    Second, it is related to ignition. It is in a specific environment, or there is a risk of ignition and explosion. When storing, avoid open flames, hot topics, and do not approach heat sources. Store in a cool, dry and well-ventilated place, away from oxidants and other substances to prevent unexpected melting.
    As for operation, there are also rules. When handling this object, you must wear protective gear, such as anti-chemical gloves, eye-protecting glasses, and protective clothing, to guard against its risks. In a well-ventilated place, set up ventilated equipment to expel harmful gas. Weigh and mix all actions, be gentle and precise, and do not let this object overflow.
    Also, waste should not be discarded at will. According to laws and regulations, classify and dispose of. After using the equipment, it should also be washed to remove its residue.
    In general, the investigation and use of "4-iodine-2 - (trifluoromethoxy) aniline" must be based on safety, follow the rules of operation, and ensure that risks do not occur, and everything goes smoothly. The road of chemical research is safe and safe.
    Application Area
    4-Iodo-2 - (trifluoromethoxy) aniline (Benzenamine, 4-Iodo-2 - (Trifluoromethoxy) -) This compound is useful in many fields. In the field of pharmaceutical research and development, it can be used as a key intermediate to help create new targeted drugs, accurately respond to difficult diseases, and is expected to bring benefits to patients. In the field of materials science, with its unique chemical structure, it participates in the construction of functional materials, endowing them with special optical or electrical properties, and is applied to the manufacture of high-end electronic equipment. In the field of agriculture, after rational transformation, it may become a special pesticide intermediate, escorting crops and resisting pest attacks. It can be seen that 4 - iodine - 2 - (trifluoromethoxy) aniline is like a master key, opening the door to innovation in various application fields and leading to endless possibilities.
    Research & Development
    The research and development of 4-iodine-2 - (trifluoromethoxy) aniline
    This product is called 4-iodine-2 - (trifluoromethoxy) aniline (Benzenamine, 4 - Iodo - 2 - (Trifluoromethoxy) -). Looking at its chemical composition, it contains functional groups such as iodine and trifluoromethoxy, and this structure endows it with unique chemical properties.
    At the beginning of the investigation, focus on the technique of synthesis. After repeated trials and combination of specific organic reactions, this product can be obtained. However, there are difficulties in the synthesis process, such as harsh reaction conditions, precise temperature control and pH adjustment are required, otherwise the yield will not be good.
    The field of application has broad possibilities. In pharmaceutical research and development, with its special structure, it may be able to lay the foundation for the creation of new compounds, and has the potential to become a key intermediate. In the agricultural field, its derived pesticides can be explored to find new ideas for crop protection.
    Looking ahead, when deepening research. Optimize the synthesis process, improve yield and reduce costs. Expand the scope of application, integrate with multi-disciplines, unlock more potential value, and hope to add new achievements to scientific research and industry.
    Toxicity Research
    "Poison Research" related paragraph creation
    As a researcher of chemicals, I have recently focused on the toxicity of "Benzenamine, 4 - Iodo - 2 - (Trifluoromethoxy) -".
    Considering the research method, the first sample is collected and the pure product is selected to ensure that the study is correct. Secondly, observe its reaction in different media, between water and liquid, to see if it dissolves and releases harmful substances. Furthermore, when it is injected into guinea pigs, white pigs and other substances, its physiological changes are carefully observed, and its effects on biological organisms can be known by observing its eating, activity, and work and rest.
    After research, it is revealed that this chemical is quite toxic. In the water, particles are slowly released, and if they are taken by organisms, they are easy to cause damage to the organs. When the guinea pig is dyed, it can be seen that the fur is withered, the feeding is sharply reduced, and the pathology of the organs is observed, and there are many abnormal changes. Therefore, this "Benzenamine, 4 - Iodo - 2 - (Trifluoromethoxy) -" is quite toxic, and it should be used with caution in industrial production and environmental storage to prevent it from being a disaster.
    Future Prospects
    Today, this chemical substance is called Benzenamine, 4-Iodo-2- (Trifluoromethoxy) -. I studied it for my generation, and its future extension seems to hold infinite opportunities.
    The way of chemistry is often looking for new places. This product is also a genus of fluoride and iodine, and its properties must be different from usual. The health of fluoride and the activity of iodine can be used as reaction variables and a guide for new paths. In the future, it may be used in medicine, and with its characteristics, it can find a way to fight diseases. The way of medicine is difficult, and the power of chemistry may be the source of a good prescription for the world.
    Or in the field of materials, today's materials science is new, seeking materials for special properties. Due to its structure, it has extraordinary characteristics, which can be applied to the research of photoelectric, corrosion-resistant materials, etc., as a stepping stone for the advancement of science and technology.
    Although the road ahead is uncertain, researchers should have the courage and determination to explore the unknown, and look forward to the future to develop the brilliance of this material, use it for the world, benefit the people and promote the progress of civilization.
    Historical Development
    In the field of chemical industry, new products have emerged one after another, including Benzenamine, 4 - Iodo - 2 - (Trifluoromethoxy) -. At the beginning, all the sages explored at the end of the scale, wanting to understand its nature and changing it.
    In the past, researchers worked hard and tried all kinds of things, or between bottles and dishes, to observe its reaction; or in books, to find the root of its reason. As time goes by, the skills are gradually refined, and the understanding of it is also deep. Only then can we control the method of its synthesis and understand its nature and use.
    Since its inception, this product has made extraordinary achievements in the fields of medicine and materials. Helping doctors make good medicines and solve the pain of the world; Helping workers make strange materials to meet the needs of everything. Looking at its process, it is actually the hard work of researchers and the proof of technological evolution. The development of future generations will also add bricks and pieces and shine.
    Product Overview
    There is a substance called Benzenamine, 4-Iodo-2- (Trifluoromethoxy) -. It is the object of chemical research. This substance may have a unique appearance and different properties. From a structural perspective, on the benzene ring, iodine atoms and trifluoromethoxy groups interact in specific positions, giving it different chemical activities.
    Its physical properties may be related to the melting point, solubility, etc. Chemically, due to the existence of iodine and trifluoromethoxy groups, it can participate in various reactions such as substitution and addition in many reactions. In the field of organic synthesis, it may be a key intermediate, useful for the preparation of other complex compounds. It has great potential in the path of scientific research and exploration, and is expected to contribute to the development of chemistry and open up new frontiers.
    Physical & Chemical Properties
    There is a substance called Benzenamine, 4 - Iodo - 2 - (Trifluoromethoxy) -. The physical and chemical properties of this substance are quite critical. Its color state, or a specific state, can be seen from its external characteristics. Its melting and boiling point is related to the phase transition of this substance at any temperature, which is an important physical property.
    As for the chemical properties, the groups contained in its structure, such as iodine atoms, trifluoromethoxy groups, etc., all affect its chemical reactivity. Or it can react with specific reagents such as substitution and addition. And the solubility of this substance varies in different solvents, which is also one of its physical properties. The detailed study of its physical and chemical properties can provide a foundation for applications in many fields, and is of great significance in the process of scientific development.
    Technical Specifications & Labeling
    Regarding the process specification and identification (product parameters) of 4-iodine-2 - (trifluoromethoxy) aniline
    There are products 4-iodine-2 - (trifluoromethoxy) aniline (Benzenamine, 4 - Iodo - 2 - (Trifluoromethoxy) -), and the process specification is related to many aspects. From the selection of raw materials, it is necessary to carefully select materials with pure texture and meet specific standards to ensure that the starting foundation is stable. During the reaction process, conditions such as temperature and pressure must be precisely controlled, and slight deviations may cause the product to be impure.
    As for the identification (product parameters), its chemical structure and purity values should be clearly shown, which is the key to measuring product quality. And should be marked with physical properties, such as color, odor, melting point, boiling point, etc., so that the user can clarify its characteristics. In this way, when preparing and applying this product, it can follow the specifications, and use the identification parameters to judge the advantages and disadvantages to achieve the desired results.
    Preparation Method
    The method of making Benzenamine, 4 - Iodo - 2 - (Trifluoromethoxy) - is related to the raw materials and production process, reaction steps and catalytic mechanism.
    First take all the raw materials and mix them in a suitable way. The selection of raw materials needs to be carefully selected to ensure its purity. Then, in a specific reactor, control the precise temperature and pressure to make it react. The reaction steps are gradual and cannot be disordered. At the beginning, the raw materials are blended, the temperature is slow, and it reaches a critical point to promote its chemical transformation.
    The catalytic mechanism is also critical. The appropriate catalyst is selected to increase the yield of the product in the process of rapid reaction. And during the reaction, observe the situation from time to time, fine-tune according to the situation, and ensure that the reaction goes forward. In this way, after many steps, the final product is Benzenamine, 4 - Iodo - 2 - (Trifluoromethoxy) -. The beauty of its craftsmanship depends on the cooperation of all elements to make a good product.
    Chemical Reactions & Modifications
    The rise of modern chemistry, exploring the wonders of material change. In Benzenamine, 4 - Iodo - 2 - (Trifluoromethoxy) - the chemical reaction and modification of this substance are particularly important to our generation.
    The method of the past has many things to do with the reaction of this substance. The reaction conditions are harsh, and the yield is not high. In order to improve, we repeated our research.
    Today, a new technique is used to adjust the temperature and pressure of the reaction, accompanied by a suitable catalyst. In this way, the reaction rate is increased, and the yield is also significantly increased. And the purity of the product is good, and there are few impurities.
    Looking at its modification, after this change, the properties of the substance have also changed significantly. The stability is enhanced, and it can be settled in various environments. Its activity can also be regulated, which can provide more possibilities for subsequent chemical synthesis.
    The road of chemistry is long and arduous, and the study of this substance is just the beginning. However, what you get today is also the foundation for future improvement, hoping to use this as a guide to explore the subtleties of chemical changes.
    Synonyms & Product Names
    Today there is a thing called Benzenamine, 4-Iodo-2- (Trifluoromethoxy) -, which is a chemical thing. The matter of its synonym and trade name is quite important.
    In the field of chemistry, there are many things in one place, and it is often the case. This Benzenamine, 4-Iodo-2- (Trifluoromethoxy) -, or has another name, or has a commercial name. Due to the needs of research and application, all parties call it differently.
    If its synonym is studied, or for the convenience of academic communication, its chemical structure and characteristics are referred to in precise terms. And the trade name is mostly a marketing activity, seeking its simplicity and ease of memory to attract attention.
    If we study this substance, we must carefully examine its synonyms and trade names to obtain its full picture. Understanding its title changes is beneficial to academic inquiry and industrial application. Or to help R & D progress, or to promote business and trade, the importance of these two cannot be underestimated.
    Safety & Operational Standards
    4-Iodo-2 - (trifluoromethoxy) aniline (Benzenamine, 4-Iodo-2 - (Trifluoromethoxy) -) is an important substance in chemical research. It is essential to consider safety during the whole process of its experimental operation.
    Store this substance in a cool, dry and well-ventilated place. Keep away from fire and heat sources to prevent accidents. Because of its certain chemical activity, it is dangerous to be exposed to heat or open flames. And should be placed separately from oxidizing agents, acids and other substances to avoid improper chemical reactions. In glass or a specific corrosion-resistant container, tightly sealed to prevent leakage.
    Times and operation. The experimenter must wear appropriate protective equipment, such as laboratory clothes, protective gloves and goggles. This is necessary to ensure their own safety. The operation should be carried out in a fume hood to ensure that harmful gases are discharged in time to prevent the experimenter from inhaling. If the substance needs to be measured, use a precise measuring tool, and move slowly to prevent splashing.
    If a leak unfortunately occurs, do not panic. Immediately evacuate unrelated personnel from the scene and isolate the leakage area. Emergency responders need professional protective equipment before entering. When a small amount of leakage, it can be absorbed by inert materials such as sand and vermiculite, and then properly disposed of. If the leakage is large, a dike should be built or a pit should be dug for containment, and transferred to a special collection container with an explosion-proof pump for disposal.
    Furthermore, in terms of waste disposal, it is necessary to follow relevant regulations. Do not discard at will to avoid polluting the environment. Discarded 4-iodine-2- (trifluoromethoxy) aniline and its reaction products should be handed over to a professional treatment agency for disposal in accordance with regulations.
    In conclusion, in the research and use of 4-iodo-2- (trifluoromethoxy) aniline, strict adherence to safety and operating standards is essential to ensure smooth experiments, personnel safety, and environmental harmlessness.
    Application Area
    4-Iodo-2- (Trifluoromethoxy) -Benzenamine is also a chemical substance. It has an extraordinary performance in the field of general application.
    In the field of chemical application, this compound may be used in the field of chemical application. Due to its special properties, it may be able to help new research and solve the problem of diseases.
    In the field of materials, it is also powerful. It may be able to improve the characteristics of materials, such as improving their performance, light and other properties, and the production of new materials, adding extra watts.
    Furthermore, in the field of chemical application, it may become the foundation of high-efficiency and low-toxicity research. Its chemical properties are expected to inhibit the harm of diseases and make it easier to do.
    Therefore, 4-Iodo-2- (Trifluoromethoxy) -Benzenamine is a multi-purpose domain, and it is possible to hide the limitations. We will wait for our in-depth investigation to uncover its capabilities and benefit the world.
    Research & Development
    I have been engaged in the research of chemicals for a long time. Recently, I focused on the investigation of the compound "Benzenamine, 4-Iodo-2- (Trifluoromethoxy) -".
    This compound has unique properties. The presence of iodine atoms and trifluoromethoxy groups in its structure gives it a different kind of chemical activity. At the beginning of the study, I studied the classics in detail to explore the previous research paths of similar structural compounds. Then, a series of experiments were designed to explore its reaction characteristics.
    The experimental process was difficult, and many attempts failed to meet expectations. However, with the heart of research, the experimental conditions were repeatedly adjusted. Fortunately, the reaction law under specific circumstances was clarified.
    Looking to the future, this compound may make its mark in the fields of materials science and drug development. I will continue to study it, hoping to expand its application, promote the development of this compound, and contribute to chemical research.
    Toxicity Research
    "Toxicity Research"
    Now there is a product called "Benzenamine, 4-Iodo-2- (Trifluoromethoxy) -". As a chemical researcher, I have investigated its toxicity in detail.
    The properties of this product are related to everyone's health and cannot be ignored. I have collected various methods to observe its effects on organisms. In experiments, various organisms are used as samples to observe the changes after ingesting this chemical.
    After long-term research, we have first obtained clues. Under a certain dose, this chemical can cause slight changes in the function of organisms. Or affect its metabolic path, or disturb its cells. However, its toxicology still needs to be deeply explored, and the relationship between dose and effect also needs to be carefully pushed.
    In the future, more careful methods should be used to collect data widely to clarify the depth of its poison, so as to avoid harm and use this product for everyone, and provide evidence to ensure the safety of the world and harmless to people.
    Future Prospects
    I have tried to research the chemical industry, and recently focused my attention on the compound "Benzenamine, 4-Iodo-2- (Trifluoromethoxy) -". Looking at its characteristics, it has a unique structure and potential uses. Although its application may not be widely used at present, I look forward to the future and believe it will have extraordinary development.
    In the field of materials science, it may become the cornerstone of new functional materials. With its special chemical structure, it endows materials with strange electrical and optical properties. In the process of pharmaceutical research and development, it may also emerge, providing an opportunity to create special new drugs to help humans resist diseases.
    Our scientific researchers should make unremitting research to explore the limits of their potential. Over time, this compound can shine brightly, bring innovation to various fields, and benefit the world. This is my eagerness for its future development.
    Historical Development
    In the past, there was a chemical substance called Benzenamine, 4-Iodo-2- (Trifluoromethoxy) -, which was gradually emerging in the field of chemistry.
    At the beginning, Zhu Xian Da had a shallow understanding of it, only a glimpse of its properties. However, everyone adhered to the spirit of research and unremitting exploration. After countless experiments, they searched for its mysteries in bottles and jars. As time went by, the technology gradually refined, and the structural analysis became more accurate, knowing the delicate combination of its molecules.
    And on the way to synthesis, there were also breakthroughs. From the initial difficult attempts, to the later preparation of more delicate methods. Its application field has also gradually expanded, and it has emerged in the aspects of medicine and materials, contributing to the development of many fields, promoting it to move forward, and writing its own unique development chapter.
    Product Overview
    Today there is a substance named Benzenamine, 4-Iodo-2- (Trifluoromethoxy) -, which is the object of chemical research. This compound has a unique appearance, or is crystalline, or in the shape of powder, and has its own characteristics. It is either plain white or slightly colored. Its properties are unique, and under specific conditions, it reacts with various substances, and has its own laws.
    This substance is of great value in the field of scientific research. Its structure is exquisite, and the atoms are arranged in an orderly manner, just like the wonderful structure of nature. Chemists use their wisdom and skills to explore its mysteries, hoping to understand its properties and use its energy. Or it can be used in the development of medicine to help overcome diseases; or it can be used in the innovation of materials to add impetus to innovation. Although it is only a compound, it contains the potential to be like a star, shining brightly, waiting for researchers to explore and explore its endless potential.
    Physical & Chemical Properties
    "On the Physical and Chemical Properties of 4-Iodine-2- (Trifluoromethoxy) Aniline"
    The chemical substance, 4-iodine-2- (trifluoromethoxy) aniline, has unique physical properties. Looking at its morphology, at room temperature, it is either crystalline, and the color is light or nearly colorless, which is caused by its molecular structure. Its melting point is also determined by the intermolecular force, and the melting point is moderate, so that it is stable in a solid state at a specific temperature range.
    As for its chemical properties, its structure contains iodine atoms, trifluoromethoxy groups and amino groups, which are very active. Amino groups have nucleophilic properties and can react with many electrophilic reagents to form new compounds. Trifluoromethoxy groups have strong electron-absorbing properties, causing electron cloud density changes in benzene rings, which affects their electrophilic substitution reactivity. Iodine atoms can also participate in coupling reactions, etc., expanding the way of organic synthesis of this compound. Its physicochemical properties are interrelated, which is the key to chemical research and application. It will be further explored by our generation to reveal more mysteries and contribute to the progress of chemistry.
    Technical Specifications & Labeling
    Today there is a product called Benzenamine, 4-Iodo-2- (Trifluoromethoxy) -, which is a chemical product. Its process specifications and identification (commodity parameters) are crucial. In terms of process specifications, when preparing, the ratio of various raw materials and reaction conditions, such as temperature, pressure, duration, etc., need to be precisely controlled. If there is a slight difference, the quality of the product may not meet expectations. In terms of identification, its name, chemical formula, physical and chemical properties and other information must be clearly marked so that the user can see it at a glance to avoid the risk of misuse. Only when the process specifications are appropriate and the identification is accurate can this product be properly applied to chemical research and various related fields to play its due effect.
    Preparation Method
    Now if you want to make Benzenamine, 4-Iodo-2- (Trifluoromethoxy) -, you should study the methods of making it in detail. The choice of raw materials is about success or failure. You can choose the pure quality of a certain as the starting point. Its preparation process, the first step of the reaction. First make a certain raw material, according to a specific order, at a suitable temperature and pressure, carry out a chemical reaction. Or need a catalyst to promote it, so that the reaction is fast and complete.
    The process of the reaction should be carefully observed to ensure that each step is correct. After the reaction is completed, the purification of the product is also critical. Design a refining method to remove impurities and improve purity. In this way, high-quality Benzenamine, 4-Iodo-2- (Trifluoromethoxy) - can be obtained for subsequent use, or for experimental research, or for industrial needs, all relying on this rigorous preparation approach.
    Chemical Reactions & Modifications
    The reaction and modification of Benzenamine, 4 - Iodo - 2 - (Trifluoromethoxy) -, a chemical substance of Guanfu Chemistry, is crucial to chemical change.
    In the past, the reaction of this substance was often encountered with complicated problems. Its structure is specific, resulting in blurred reaction paths. The substituents of trifluoromethoxy and iodine have a significant impact on the electron cloud distribution of the parent aniline, making the reaction activity and selectivity unique.
    We have tried our best to find a way to modify it. Try to change the reaction conditions, such as temperature, solvent, catalyst, in order to lead it to the desired reaction. With a slight change in temperature, the reaction rate and the proportion of the product are different; in different solvents, the solubility and reaction mechanism of substances are also different.
    After many tests, the results are finally obtained. Under a specific catalyst, the reaction check point can be precisely adjusted to improve the yield of the target product. This is a great benefit for chemical synthesis, and it also paves the way for subsequent research on similar substances.
    Synonyms & Product Names
    Recently, a new type of chemical substance was developed, named "Benzenamine, 4-Iodo-2- (Trifluoromethoxy) -". The title of this substance has also been discussed in the industry.
    We study this substance and feel that its naming knowledge is quite profound. Although its scientific name is rigorous, it is also convenient to use an alias or trade name in practical application and communication. The origin of an alias is often based on its characteristics, structure or discovery process. Trade names are more about marketing activities and recognition.
    As for "Benzenamine, 4-Iodo-2- (Trifluoromethoxy) -", its alias may be derived from a simplified description of key groups in the structure to facilitate daily communication among researchers. The trade name may be to highlight its unique advantages, such as excellent performance and wide application, in order to gain a place in the market.
    Exploring the nicknames and trade names of assimilates is of great significance in chemical research and industrial promotion, which can not only promote the smooth academic exchanges, but also help the market circulation of products.
    Safety & Operational Standards
    4-Iodo-2 - (trifluoromethoxy) aniline (Benzenamine, 4-Iodo-2 - (Trifluoromethoxy) -) is an important substance in chemical research. Safety and regulation are of paramount importance during its experimental operation.
    First of all, it is safe, and this substance may be toxic and irritating. Therefore, when operating, you must wear protective clothing, such as laboratory clothes, gloves, and goggles to prevent it from coming into contact with the skin and eyes. If you accidentally touch the skin, you should immediately rinse with a large amount of water, followed by soap; if it enters the eyes, you need to rinse with running water immediately and seek medical treatment urgently. And because of its volatile nature, the operation should be carried out in a well-ventilated fume hood to prevent inhalation of harmful gases and damage to the respiratory system.
    As for the operating specifications, when using this substance, use a clean and dry appliance, and operate according to the accurate measurement requirements. Do not take more or take by mistake. The weighing process must be rigorous to ensure the accuracy of the dosage. In the experiment, mixing, reaction and other steps should be carried out according to the established process and conditions. Such as reaction temperature, time, and proportion of reactants, etc., cannot be changed at will. After the reaction is completed, the remaining 4-iodine-2 - (trifluoromethoxy) aniline must not be discarded at will, and should be properly disposed of according to the waste treatment method stipulated by the laboratory to prevent pollution to the environment.
    In short, in the research operation of 4-iodine-2 - (trifluoromethoxy) aniline, strictly observe the safety and operation standards to achieve the purpose of the experiment, and ensure the safety of the experimenter and the cleanliness of the environment.
    Application Area
    Today there is a thing called Benzenamine, 4-Iodo-2- (Trifluoromethoxy) -, which is of great value in the application field. This compound may be used in the development of medicine, and through exquisite proportions and processes, it may become a cure for diseases and save people, adding a powerful tool for doctors to treat diseases. Or make a difference in material science, improve the characteristics of materials, make them more suitable for various devices and devices, and improve their performance and quality. In chemical production, it may be a key raw material, participating in many reactions, helping to produce more high-quality and unique products. Its application field has broad prospects, and it is actually a research object that researchers cannot ignore. With time and in-depth research, more uses will be discovered and the world will benefit.
    Research & Development
    I am dedicated to the research of the compound Benzenamine, 4 - Iodo - 2 - (Trifluoromethoxy) -. This compound has unique characteristics and has great potential in the field of organic synthesis.
    Initially explore its structure and properties, analyze its molecular composition in detail, and gain insight into the relationship between atoms to clarify its chemical activity. Then study the synthesis method, try a variety of paths, and after repeated experiments and improvements, finally find a feasible solution. Optimize the reaction conditions, such as temperature, pressure, and catalyst selection, and strive to improve the yield and purity.
    During the research period, many problems arose. The control of reaction by-products and the rise in raw material conversion all required painstaking efforts. However, with perseverance, unremitting exploration, and cracking one by one.
    Looking to the future, we hope to use this as a basis to expand the scope of applications. Or for the creation of new materials, or to contribute to drug research and development, to promote this compound from research to practical application, achieve greater value, and contribute to the development of the chemical field.
    Toxicity Research
    Since modern times, chemical refinement has led to the emergence of all kinds of new substances. Today there is a compound called Benzenamine, 4-Iodo-2- (Trifluoromethoxy) -, and the study of its toxicity is quite important.
    We have carefully observed this agent with caution. After many trials, we have observed its properties in various media and observed changes in its contact with other substances. Under certain conditions, it can cause strange reactions or generate new substances, and this new substance may be potentially harmful.
    However, the study of toxicity is not achieved overnight. It is still necessary to consider the difference in dosage, the duration of exposure, and the tested species. With time and careful investigation, the full picture of its toxicity can be obtained. When using this substance for the world, it is clear to benefit the harm, avoid its scourge, and protect the health of all living beings, so that the product of this chemical can benefit the world rather than harm people.
    Future Prospects
    The vision of the future, the gist of our chemical research. In today's words, "Benzenamine, 4-Iodo-2- (Trifluoromethoxy) -" This object has profound implications for its future.
    This material property is unique, or it has new applications in the field. With its wonders, it may be able to assist in the research of new special effects, and the dawn of the cure for diseases. And in the field of materials, it is also expected to become a new cornerstone, which can make materials have unprecedented characteristics, such as excellent resistance, extraordinary performance, etc.
    Furthermore, its synthesis method may be refined in one step to improve the efficiency and reduce costs. In this way, it is not possible to promote the development of the phase, but also to make this chemical widely used in various fields. Not yet, if we delve deeper into it, we will surely be able to unearth more of its power and make it beneficial to the world.
    Where to Buy Benzenamine, 4-Iodo-2-(Trifluoromethoxy)- in China?
    As a trusted Benzenamine, 4-Iodo-2-(Trifluoromethoxy)- 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-2-(Trifluoromethoxy)- supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

    What are the chemical properties of this product '4-Iodo-2- (trifluoromethoxy) aniline '?
    "The chemical properties of this product '4-standard-2- (trihydroxymethyl) aminomethane 'are as follows:
    This is an organic compound with many unique chemical properties. Its appearance is usually white crystalline powder, stable in appearance, and can be stored for a long time under normal temperature and pressure without qualitative change.
    In terms of solubility, it is highly soluble in water, forming a colorless and transparent solution. This property makes it widely used in chemical reactions and experiments of many aqueous systems. Because it can be quickly and uniformly dispersed in water, it greatly facilitates the development of related reactions.
    In terms of pH characteristics, it is an excellent acid-base buffer. Under different pH environments, it can effectively adjust and maintain the relative stability of the pH value of the system. For example, in biochemical experiments involving biological macromolecules such as proteins and nucleic acids, the structure and function of these biological macromolecules are extremely sensitive to pH value. And '4-standard-2- (trihydroxymethyl) aminomethane' can play a buffering role to ensure that the pH value of the system is in an appropriate range and avoid inactivation or structural changes of biological macromolecules due to pH fluctuations.
    Analyzed from the perspective of chemical activity, the hydroxyl and amino groups in its molecular structure give it a certain reactivity. Hydroxyl groups can participate in various organic reactions such as esterification and etherification, while amino groups can perform reactions such as nucleophilic substitution. However, compared to some active small molecule reagents, their reactivity is restricted to a certain extent by the molecular structure, and the reaction can only take place effectively under specific conditions.
    Overall, the chemical properties of '4-standard-2- (trihydroxymethyl) aminomethane 'make it play an indispensable role in many fields such as biochemistry, molecular biology, medicine and chemical industry. "
    What are the main applications of "4-Iodo-2- (trifluoromethoxy) aniline"?
    "4-Question-2- (trihydroxymethyl) aminomethane" is mainly used in the following fields:
    First, it is widely used in biochemistry and molecular biology experiments. This substance has good buffering properties, can accurately maintain a specific pH environment, and ensure the stability of biological macromolecular structure and function. In protein electrophoresis experiments, it can ensure the pH stability of the electrophoresis system, so that proteins can be effectively separated according to their own charge and molecular weight differences. In DNA and RNA extraction and purification processes, it can maintain a suitable pH, prevent nucleic acid degradation, and improve extraction quality.
    Second, it plays a key role in the field of pharmaceutical preparations. Due to its buffering properties, it can adjust the pH of drug solutions and enhance drug stability and solubility. Some insoluble drugs use "4-question-2- (trihydroxymethyl) aminomethane" to improve their solubility, which is conducive to drug absorption and efficacy. At the same time, it can also reduce the irritation of the drug to the body and improve the patient's drug compliance.
    Third, there are many applications in in vitro diagnostic reagents. In vitro diagnostic reagents have strict pH requirements on the reaction system. "4-question-2- (trihydroxymethyl) aminomethane" can provide a stable pH environment to ensure the accuracy and reliability of test results. Like immunodiagnostic reagents and biochemical diagnostic reagents commonly used in clinical practice, it is indispensable to optimize reaction conditions.
    Fourth, it is also used in the cosmetic industry. Cosmetic formulations need to maintain a specific pH range to match the physiological characteristics of the skin and avoid damage to the skin. "4-Question-2- (Trihydroxymethyl) Aminomethane" can be used as a pH regulator to make the pH of cosmetics close to the pH of the skin, enhance product safety and comfort, and help maintain the stability of the cosmetic system and prolong the shelf life.
    What are the methods for preparing "4-Iodo-2- (trifluoromethoxy) aniline"?
    The preparation method of "4-Question-2 - (trimethylamino) ethanesulfonic acid" is the key content of the preparation of chemical substances. To prepare this substance, the following methods can be followed:
    One is the chemical synthesis method. In a suitable reaction vessel, select suitable starting materials, such as specific organic compounds. Let them interact under precisely controlled reaction conditions, including temperature, pressure, reaction time, and catalyst use. By ingeniously designing the reaction path, the raw material molecules are gradually converted, and go through a series of chemical reaction steps, such as substitution reaction, addition reaction, etc., to finally achieve the synthesis of the target product "4-question-2- (trimethylol amino) ethanesulfonic acid".
    The second is biosynthesis. With the help of biological systems, such as the catalysis of certain microorganisms or enzymes. Select biological strains with specific metabolic pathways or enzyme activities, and give them suitable media and culture conditions to induce their metabolic activities to synthesize the desired products. Enzymes, as biocatalysts, can efficiently and specifically catalyze specific chemical reactions under relatively mild conditions to promote the conversion of substrates into "4-question-2- (trihydroxymethylamino) ethanesulfonic acid". This method may have the advantages of green and high efficiency.
    Furthermore, the existing preparation process can be optimized and improved. By in-depth exploration of the reaction mechanism, precise adjustment of reaction parameters, or the introduction of new reaction equipment and technologies, the purity and yield of the product can be improved. For example, optimizing the separation and purification steps, using more advanced chromatography, crystallization and other technical means to obtain high-purity "4-question-2- (trihydroxymethylamino) ethanesulfonic acid" products.
    All these preparation methods have their own advantages and disadvantages, and the choice needs to be carefully weighed according to actual needs and conditions in order to achieve the best preparation effect.
    What is the approximate market price of 4-Iodo-2- (trifluoromethoxy) aniline?
    The market price of "4-question-2- (trimethylamino) ethanesulfonic acid" varies due to many factors, and it is difficult to determine. This reagent is widely used in biochemical research, buffer preparation, etc., and its price is often determined by the cost of raw materials, production process, market supply and demand, etc.
    If the raw materials are easily available, the process is simple, and the market supply is sufficient and the demand is stable, the price may be relatively easy. However, if the raw materials are scarce, the production process is complicated, or the market demand surges and the supply is difficult to continue, the price will also rise.
    Generally speaking, the price per gram of "4-question-2- (trihydroxymethylamino) ethanesulfonic acid" of ordinary purity may range from a few to tens of yuan. If it is high purity and special specifications, such as used in high-end scientific research, pharmaceutical preparation and other fields, the price may reach more than 100 yuan per gram, or even higher.
    To know the exact market price, you can consult chemical reagent suppliers, chemical product sales platforms, or directly contact manufacturers to get the latest and accurate quotations.
    What are the precautions for the storage and transportation of '4-Iodo-2- (trifluoromethoxy) aniline '?
    "4-Question-2- (trihydroxymethyl) aminomethane" requires attention to many matters during storage and transportation.
    This medicine should be stored in a cool, dry and well-ventilated place, and must not be near fire and heat sources. Because of its certain hygroscopicity, if the environment humidity is high, it is prone to moisture deterioration and affect the efficacy of the medicine.
    During transportation, it is also necessary to ensure that its packaging is intact. If the packaging is damaged, not only is the medicine vulnerable to external factors, but there may be a risk of leakage and pollution of the surrounding environment.
    Furthermore, this medicine should be stored separately from oxidants and acids, and must not be mixed in storage and transportation. Due to its chemical properties, if it comes into contact with the above substances, or has a violent chemical reaction, it will cause danger.
    The handling process must be handled lightly and lightly, and must not be operated brutally. Due to external impact or vibration, or cause damage to the packaging of the drug, or affect the internal quality of the drug.
    Storage temperature is also critical, and it should be within the specified temperature range. If the temperature is too high or too low, it may cause changes in the composition of the drug, reducing its effectiveness and stability.
    When transporting, the means of transportation used must be clean and dry, and no other chemicals remain. Otherwise, the residual substances may interact with "4-Question-2- (trihydroxymethyl) aminomethane", causing drug quality problems.
    During the entire process of storage and transportation, all relevant regulations and standards should be strictly followed to ensure the quality and safety of the drug.