Benzonitrile, 4-Iodo-

Fengxi Chemical

Specifications

HS Code	818393
Name	4-Iodobenzonitrile
Chemical Formula	C7H4IN
Molar Mass	245.017 g/mol
Appearance	White to off - white solid
Melting Point	144 - 148 °C
Boiling Point	300.5 °C at 760 mmHg
Density	2.02 g/cm³
Solubility In Water	Insoluble
Solubility In Organic Solvents	Soluble in common organic solvents like dichloromethane, chloroform
Flash Point	135.5 °C
Cas Number	624-38-4
Chemical Formula	C7H4IN
Molar Mass	245.018 g/mol
Appearance	White to off - white solid
Melting Point	114 - 116 °C
Boiling Point	300.3 °C at 760 mmHg
Solubility In Water	Insoluble
Solubility In Organic Solvents	Soluble in common organic solvents like dichloromethane, chloroform
Purity	Typically available in high purity (e.g., 98%+)
Chemical Formula	C7H4IN
Molecular Weight	245.02
Appearance	White to off - white solid
Melting Point	116 - 118 °C
Boiling Point	305.4 °C at 760 mmHg
Density	1.94 g/cm³
Solubility In Water	Insoluble
Solubility In Organic Solvents	Soluble in common organic solvents like ethanol, chloroform
Flash Point	138.5 °C
Cas Number	615 - 43 - 0
Refractive Index	1.657

As an accredited Benzonitrile, 4-Iodo- 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 - benzonitrile in a sealed, chemical - resistant bottle.
Storage	Store “4 - iodo - benzonitrile” 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. Isolate it from oxidizing agents, reducing agents, and substances that could react with it. Label the storage clearly for easy identification and to ensure proper handling.
Shipping	4 - iodo - Benzonitrile is shipped in well - sealed containers. Packaging adheres to chemical transport regulations to prevent leakage. It's transported under conditions minimizing exposure to heat, light, and incompatible substances.

Free Quote

Competitive Benzonitrile, 4-Iodo- prices that fit your budget—flexible terms and customized quotes for every order.

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General Information

Historical Development

"Remembering the History of 4-Iodobenzonitrile"
Fu 4-iodobenzonitrile is an organic chemical. Tracing its origin, at the beginning, researchers in the field of organic synthesis, striving to explore, hoping to obtain new things. At that time, the art of chemistry was not as complete as it is today, but the heart of researchers was as firm as gold.
Initially, attempts were made to make 4-iodobenzonitrile based on benzonitrile, supplemented by the method of iodization. In the meantime, the preparation of reagents and the control of conditions all need to be fine. Although it has gone through mistakes, it is determined.
Years have passed, and technology has progressed. The researcher's understanding of the reaction became clearer, the conditions were optimized, and the yield gradually increased. From the difficult exploration at the beginning to the relative smoothness in the future, the synthesis technology of 4-iodobenzonitrile became more and more mature, adding this important stroke to the history of organic synthesis, paving the way for future applications.

Product Overview

"On the Product Description of 4-Iodobenzonitrile"
This compound is 4-iodobenzonitrile. It is an organic compound with unique characteristics. Looking at its shape, at room temperature, or in a white to light yellow crystalline form, delicate and uniform. Smell it, or have a special smell.
From its chemical structure, above the benzene ring, the cyano group and the iodine atom are on one side each, affecting each other, resulting in its unique chemical activity. In the field of organic synthesis, this compound has a wide range of uses. Because of its active iodine atom, it can participate in many nucleophilic substitution reactions, and the cyano group can also be converted into other functional groups through many reactions, making it a key intermediate for the synthesis of complex organic molecules.
In the process of industrial preparation, there are various paths to follow, but factors such as cost, yield and environmental protection need to be taken into account.
4-iodobenzonitrile is of great value in the research and industrial production of organic chemistry, and is indeed a compound that cannot be ignored in the field of organic synthesis.

Physical & Chemical Properties

Today, there is a name called 4-iodobenzonitrile (Benzonitrile, 4-Iodo -), and its physical and chemical properties are quite important. The appearance of this substance may be a specific color state, or a crystalline body, with its texture and luster. Regarding its melting point, it can reach a certain exact value, which is crucial when identifying and purifying. The boiling point is also one of its characteristics, which is related to its physical state transformation at different temperatures.
In terms of solubility, it may be soluble in some organic solvents, but it may be insoluble in water. This is due to the interaction between the molecular structure and the solvent molecules. In terms of chemical properties, both nitrile and iodine atoms are reactive and can participate in many chemical reactions, such as nucleophilic substitution. They are important raw materials for organic synthesis and are widely used in the field of fine chemicals. All kinds of properties are the cornerstones for in-depth research and rational application of this substance.

Technical Specifications & Labeling

Benzoniitrile, the 4-Iodo-, is also a thing of transformation. The quality of its technology is very important. To understand its technical quality, observe the quality of its production and physicality. Its basic characteristics, such as melting, boiling, density, etc., are all important to measure.
As far as it is concerned, state its name and form, in order to distinguish the basis. In the product, the quality of measurement and quantity cannot be ignored. In both cases, the quality of technology, such as the quality of the product, and the wings of the product, are indispensable to the research, manufacture, and use of Benzoniitrile, 4-Iodo-. Only by careful treatment can we make good use of this thing and its effectiveness.

Preparation Method

There is a method for preparing 4-iodobenzonitrile, which is described in detail below. The raw materials are mainly benzonitrile and iodide. The process of preparation involves first mixing benzonitrile and an appropriate amount of iodide in a special container, controlling the temperature to a suitable degree, about XX degrees Celsius, and stirring evenly in the meantime. After the reaction is completed, the temperature and stirring rate are fine-tuned according to the reaction process. After the reaction is completed, the product is purified by specific separation methods, such as filtration and distillation. The catalytic mechanism is to use the power of a catalyst to reduce the activation energy of the reaction and promote its efficient progress. After these steps, a relatively pure 4-iodobenzonitrile product can be obtained.

Chemical Reactions & Modifications

In Benzonitrile, 4-Iodo- chemistry, this is an important study. In the reaction, or with nuclear substitution, the activity of iodine atoms is high, which can be determined by the reaction and the reaction. The degree and solubility of the reaction are different. For example, iodine atoms may be easily disposed, which is the transformation of the reaction. If you want to change the reaction, you can control the reaction, and make it suitable for dissolution, so that the reaction is in the desired direction. In this way, it can increase its efficiency and improve its transformation. In the field of chemical synthesis, it has important value, and can be used for multi-phase research to understand its change in different situations.

Synonyms & Product Names

"On the Synonyms and Trade Names of" 4-Iodobenzonitrile "
There are chemical substances today, named" Benzonitrile, 4-Iodo - ", Chinese translation" 4-Iodobenzonitrile ". This substance is synonymous with the industry, or has another name.
Among the businesses, its trade names are also different. Or due to different uses and different production methods, it is given different names. However, it refers to this" 4-Iodobenzonitrile ".
In the field of research, it is essential to understand its synonyms and trade names. Due to the differences in terms or misunderstandings during exchanges, it hinders academic communication and research and development. Therefore, scholars should carefully observe their various names before they can walk on the road of chemical research and study "4-iodobenzonitrile", so as to promote the progress of this field.

Safety & Operational Standards

"About 4-Iodobenzonitrile Product Safety and Operation Specifications"
4-Iodobenzonitrile is also a chemical product. In our chemical research, its safety and operation standards are of paramount importance.
This product has specific properties, which are related to the safety of the experimenter and endanger the smooth operation of the experiment. When using it, it should be handled in a well-ventilated place to cover it or dissipate bad gas. If it is blocked in an occluded place, the gas will accumulate and harm the body. And the operator must wear protective equipment, such as gloves, goggles, etc., to prevent it from touching the body, entering the eyes, and causing damage to the skin and eyes.
The method of storage must also be paid attention to. It should be placed in a cool, dry place to avoid fire and hot topics to prevent it from changing and creating unexpected risks. And when stored separately from other things, to prevent them from touching and responding to dangerous situations.
In the experimental operation, it must be based on the accuracy of the procedure. When weighing, use a precise device to make sure to count the number, and do not make the difference and mistake the result of the experiment. During the reaction, when controlling the temperature and controlling, observe the situation. If there is any abnormality, stop and deal with it quickly.
After it is used up, its waste should not be lightly disposed of. According to relevant regulations, separate and place it, and hand it over to a special person or place for proper disposal. Do not discard it at will to avoid pollution.
In short, the safety and operating standards of 4-iodobenzonitrile must be observed by our chemical researchers to ensure our own safety, the success of the experiment, and the protection of the environment.

Application Area

"The application field of 4-iodobenzonitrile"
Fu 4-iodobenzonitrile is quite useful in many application fields. In the field of organic synthesis, it is often a key intermediate. It can participate in a variety of chemical reactions and construct complex organic molecules through its unique structure. For example, when building nitrogen-containing heterocyclic compounds, 4-iodobenzonitrile can be cleverly reacted with specific reagents to form novel cyclic structures, which have great potential in the field of drug development.
Furthermore, in the field of materials science, it also has applications. It can be used to prepare functional materials with special properties, such as some optoelectronic materials. With its molecular properties, the material is endowed with unique optical and electrical properties, which may play an important role in the manufacture of optoelectronic devices and lay the foundation for the development of new materials.

Research & Development

I have studied many chemical substances, and today I am talking about 4-iodobenzonitrile. Its research and development are quite important.
At the beginning, I explored the method of its synthesis. After various attempts, I selected the appropriate raw material with a specific reaction path, matched the precise ratio, and changed the chemistry to finally obtain this compound. However, the process is difficult, often encountered obstacles, and the yield is not up to expectations, so I pondered over and over again, improved the steps, optimized the conditions, and finally increased the yield.
Furthermore, looking at its properties, it shows different states in different environments. In solvents, the dissolution is different, and it reacts with other substances, and the activity is also different. This is the focus of research.
As for development, it may have potential in the field of medicine and can be used as a key intermediate for synthetic drugs. In materials science, it may contribute to the creation of new materials. I should continue to study, hoping to expand its uses, promote progress in this field, and contribute to the development of science.

Toxicity Research

The toxicity of 4-iodobenzonitrile is related to the cognition and use of this chemical in our generation. 4-iodobenzonitrile has a specific chemical structure and properties. According to many experimental observations, it may cause a series of reactions in organisms.
In animal experiments, ingestion of this chemical shows that some subjects have abnormal physiological functions. It may affect the nervous system, causing slow movement and sluggish response. And it also damages the organs, such as liver and kidney functions or interference.
The apparent toxicity is also related to the dose. With a small amount of exposure, the body may be able to adjust and metabolize itself. However, long-term exposure to large doses may cause serious consequences. We should handle it with caution, and strictly abide by safety procedures in experiments and production to prevent it from causing harm to the human body and the environment. In-depth investigation of its toxicity mechanism can better control and use it, so that scientific research and production activities can move forward steadily.

Future Prospects

Benzoniitrile, 4-Iodo- Although this object is not widely used today, it is regarded by our generation as having an unlimitable prospect. In the field of organic synthesis, it may pave the way for innovation. Although the world has not fully appreciated its potential today, we firmly believe that with time, the technology will gradually become more refined, and it will definitely emerge.
The structure of 4-Iodo- is unique, and it may be able to create new opportunities in the creation of new materials and the development of medicine. Although the road ahead is long and many difficulties are to be overcome, such as the complexity of purification and the harsh reaction conditions, we are scientific researchers who uphold the determination and are not afraid of obstacles. When anticipating the future, it will be able to use its characteristics to generate results that benefit all people and add brilliance to the world. This is my sincere hope for its future.

Historical Development

Benzontrile, 4 - Iodo - This thing, the trace of its development, was unknown to everyone at the beginning. At the beginning, only a little bit of its basic characteristics were known, and in the field of chemistry, the exploration was not deep.
However, the years passed, and the sages worked tirelessly. There are intelligent people who use delicate methods to scrutinize its structure and understand the arrangement of its molecules. More diligent people explore the law of its reaction and observe its changes under various conditions.
Gradually, it is known that it has great potential in the way of organic synthesis. It can be used as a key raw material to induce various reactions and produce various products. After several generations of scholars, its application has become more and more extensive, and it has been dedicated to various fields such as medicine and materials. Since ignorance and ignorance, its use is now obvious. Its development process is like a star gradually shining, blooming in the chemical firmament.

Product Overview

"Overview of 4-Iodobenzonitrile Products"
Fu 4-iodobenzonitrile is a crucial chemical in the field of organic synthesis. Its appearance is white to light yellow crystalline powder, with specific physical and chemical properties.
This product has a wide range of uses in chemical synthesis. In the process of pharmaceutical synthesis, it is often a key intermediate, helping to develop many special drugs. In the field of materials science, it also plays an important role, or can optimize material properties and improve their quality.
The preparation method requires fine chemical operation to control the reaction conditions, such as temperature, pH, reaction time, etc., to obtain higher purity products.
However, caution is also required when using and storing. Due to its certain chemical activity, it should be stored in a dry, cool and well-ventilated place to avoid contact with incompatible substances to prevent accidents.

Physical & Chemical Properties

"Physical Discussion · On the Physical and Chemical Properties of 4-Iodobenzonitrile"
Fu 4-iodobenzonitrile is an important substance in organic chemistry. Its physical properties are mostly solid at room temperature, with a nearly pure white color and a certain crystalline form. It glitters slightly under light. Its melting point is specific, about [X] ° C. This characteristic makes it undergo phase transformation under a specific temperature environment.
On chemical properties, the conjugation of iodine atoms and benzonitrile structure in 4-iodobenzonitrile is significant. Nitrile groups have high reactivity and are easy to participate in nucleophilic addition, hydrolysis and other reactions. Although the iodine atom is relatively stable, it can also be substituted under specific reagents and conditions, and interact with many organic reagents to form new compounds, which are widely used in the field of organic synthesis. The physical and chemical properties of this substance provide many opportunities and directions for the research and practical application of organic chemistry.

Technical Specifications & Labeling

Benz onitrile, 4 - Iodo - This product, its method and quality are to be determined. To clarify its workmanship, the method of follow-up and improvement, with precise equipment, careful operation. It is clear from the selection of raw materials, the consideration of proportions, to the reverse parts, such as the degree, temperature, and catalysis. Its reverse step, or multi-step, must make the difference between each step, in order to obtain the best quality.
To the point, to clarify its physical rationality, such as color, shape, melting and boiling, etc.; the chemical properties cannot be ignored, such as anti-activity, qualitative. And the proportion of ingredients, the degree of resistance, etc. are clear, so that the user can know the quality. In this way, it is beneficial to obtain the key requirements of the grid, generate and use.

Preparation Method

The method of making 4-iodobenzonitrile is related to the raw materials and production process, reaction steps and catalytic mechanism. First take an appropriate amount of iodide, with specific benzonitrile raw materials, the two are fundamental. In the clean reactor, control the appropriate temperature and pressure, add a catalyst with precise proportion, this catalyst can promote the speed of the reaction and change the reaction path.
At the beginning, the raw materials slowly blend and gradually react. After several hours, the molecules interact and change in an orderly manner according to the established reaction steps. During this process, the reaction process is closely monitored, and various instruments are used to measure the changes in temperature, pressure and composition. After the reaction is completed, the pure 4-iodobenzonitrile product is obtained by the method of fine separation and purification to remove impurities. The whole production process strives to be precise and efficient, and the exquisite use of catalysts is the key to the reaction. Only by controlling all links can high-quality products be obtained.

Chemical Reactions & Modifications

The wonders of chemistry are endless. When it comes to "Benzonitrile, 4-Iodo-" today, its chemical reaction and modification are quite comprehensible.
The chemical response, such as the combination of yin and yang, changes without end. "Benzonitrile, 4-Iodo-" under various reaction conditions, or in combination with other things, or in its own fission, can be followed. The breaking of bonds and the recombination of atoms are all based on chemical principles.
The way of modification is to artificially apply tricks to substances to make their properties better. Or adjust its activity, or change its stability to suit different purposes. Or use the power of a catalyst to speed up its reaction; or change the temperature and pressure to guide it to the best.
In the study of "Benzonitrile, 4-Iodo-", to investigate its reaction path and explore its modification method, it can open up new avenues for chemical applications, increase its efficiency, and use it widely to benefit everyone. This is the wish of my generation of chemical researchers.

Synonyms & Product Names

"On the Synonyms and Trade Names of 4-Iodobenzonitrile"
The name of 4-iodobenzonitrile is also a chemical substance. Its synonyms also have many titles. In the industry, or due to different research and applications, there are different names. Its trade names also vary according to the manufacturer and market positioning.
The concept of this thing, in the field of chemical research, is often the object of inquiry. Its synonyms refer to the same chemical entity. Although the titles are different, the essence is the same.
As for the trade name, it is either for the manufacturer to show its characteristics, or for the convenience of market circulation. However, no matter the synonym or trade name, it is necessary to refer to this 4-iodobenzonitrile. The wonders of chemistry can be seen here. The same substance, many coexisting, is known to the academic community and the industry.

Safety & Operational Standards

4-Iodobenzonitrile (Benzonitrile, 4-Iodo -) is an important chemical compound in chemical research. When it is experimentally operated and used, many safety and operating standards must not be ignored.
First, safety. This compound has certain chemical activity and comes into contact with the skin or causes irritation. Therefore, when operating, use suitable protective clothing, such as laboratory clothes and gloves, and do not touch it with bare hands. If you accidentally touch it, rinse it with plenty of water and seek medical attention as appropriate. Its volatile gas may also be harmful. The operation should be carried out in a well-ventilated place, such as a fume hood, to prevent the inhalation of harmful gases and damage to respiratory organs.
times and operating specifications. When taking it, use clean and accurate instruments and measure it carefully according to the amount required by the experiment to avoid waste and excess. During the weighing process, pay attention to the stability of the ambient temperature and humidity to prevent affecting the weighing accuracy. During the reaction operation, strictly control the temperature and control, follow the established reaction process. The heating reaction needs to be especially careful, and the appropriate heating method and temperature should be selected to prevent the reaction from getting out of control due to overheating. After the reaction, the waste containing 4-iodobenzonitrile should not be discarded at will. According to the regulations on chemical waste treatment, it should be collected and properly disposed of to prevent pollution to the environment.
In short, in the research and use of 4-iodobenzonitrile, safety and operating standards are of paramount importance. Only by strictly adhering to the norms can we ensure the safety of the experimental personnel, promote the smooth operation of the experiment, and protect the environment from harm.

Application Area

4-Iodobenzonitrile (Benzonitrile, 4-Iodo-) has its uses in various fields. In the field of pharmaceutical synthesis, it can be used as a key intermediate. Due to the unique structure of benzene ring and cyano and iodine atoms, it can construct a molecular structure with specific physiological activities through various chemical reactions to prepare antibacterial, anti-tumor and other drugs.
In the field of materials science, 4-iodobenzonitrile can be introduced into polymer systems after proper transformation. Its iodine atom activity can participate in cross-linking or polymerization reactions, giving materials special electrical and optical properties, such as application to organic optoelectronic materials, improving luminous efficiency and stability.
In addition, in fine chemicals, it is an important raw material for the preparation of special fragrances and dyes. With its reaction, the product with novel structure can be obtained, which increases the uniqueness of product color and aroma. With its characteristics, this compound shows its important value in many application fields and promotes the development and innovation of technology in various fields.

Research & Development

In the field of chemistry, it is our responsibility to explore new things. Today's research on this thing is called "Benzonitrile, 4-Iodo-", which has unique characteristics and extraordinary potential.
We have dedicated ourselves to studying it, using ancient methods and new techniques to observe its structure and analyze its characteristics. In experiments, observe the changes in its reaction and explore the law of its transformation. After months of hard work, we have first gained something.
Under specific conditions, this substance exhibits different activities, which can be used for the creation of new materials or contribute to the research and development of medicine. However, the road ahead is long, and many details still need to be worked out. We should uphold our original intention and make unremitting exploration, hoping to expand its application and promote the development of this field, so that the research of "Benzonitrile, 4-Iodo-" can reach an unprecedented level and contribute to the academic community.

Toxicity Research

Today, there is a substance called "Benzonitrile, 4-Iodo-". In the study of our chemicals, the study of its toxicity is crucial. The appearance characteristics of this substance, or the color, taste and texture, should be carefully observed. Observe its mixing with various substances, observe its reaction state, and deduce the signs of toxicity.
Repeat to explore the changes in its entry into the living body. Either by mouth or through skin infiltration, observe the changes in biological physiology, such as movement, feeding, and metabolism. Record changes at each time to clarify the severity of its poisoning and the depth of its toxicity.
Furthermore, consider the environmental reasons. Under different temperatures, humidity, pH, its toxicity may vary. Only by understanding this can we know the wide range of hazards in the natural environment. After this study, we hope to know the toxicity of "Benzonitrile, 4-Iodo-" to provide evidence for future protection and application.

Future Prospects

In the field of our chemical research, this compound has an unlimited future prospect. Its structure is unique and its properties are unique, just like the treasures hidden in jade.
Looking at the present, many studies are in the ascendant. This compound is the key to the path of organic synthesis, which may lead our generation to an unprecedented level. In the field of materials science, it may turn decay into magic and breed new materials to meet many urgent needs in the future.
Looking forward to the future, 4-Iodo-Benzonitrile will bloom like a star in the vast sky, adding a new chapter to the medicine of treating diseases and diseases in the industry of medical creation; in the road of electronic technology, it will become the cornerstone of refined equipment. Those of us who study and seek should be like a polish, and we will unremittingly explore and hide, hoping to tap its potential, so that it can be used by the world, benefit all people, and become a bright future.

Historical Development

"The History of 4-Iodobenzonitrile"
The past, the realm of chemistry, has not been explored. The thing of 4-Iodo- (Benzonitrile, 4-Iodo-), which first appeared in the field of human vision, is still an unknown secret.
At that time, all the sages worked hard to study, and began to get a glimpse of it. After years of delay, all kinds of experiments, trials and errors, unremitting progress. In the method of synthesis, it is easier to several degrees, and strive for its goodness.
In the past, the techniques used were simple or clumsy, but the hearts of the ancestors were determined. From ignorance to clarity, in the control of reaction conditions, the choice of raw materials, all accumulated a few steps to make a thousand miles.
Gradually, the preparation of 4-iodobenzonitrile has improved its essence and its application has also become wider. Either into the road of pharmaceutical research and development, or as the foundation of material creation. In the advance of chemical history, it is still the beginning of the star, and it is gradually shining, leading everyone to a new realm, unremitting pursuit, waiting for the grand development in the future.

Product Overview

Overview of 4-iodobenzonitrile products
4-iodobenzonitrile is an important raw material for organic synthesis. Its properties are off-white to light yellow crystalline powder, which is stable at room temperature and pressure. Looking at its structure, on the benzene ring, the iodine atom is opposite to the cyanide group, giving this compound unique chemical activity.
This product has a wide range of uses. In the field of pharmaceutical synthesis, it is a key intermediate for the preparation of a variety of specific drugs. It can introduce other functional groups through specific reactions to construct complex drug molecular structures. In the field of materials science, it can participate in the synthesis of materials with special optoelectronic properties, such as in advanced materials such as organic Light Emitting Diode.
The synthesis method mostly uses benzonitrile as the starting material, and the iodine atom is precisely introduced through the halogenation reaction. The control of the reaction conditions is the key, and the choice and amount of catalyst have a great impact on the purity and yield of the product. However, during the preparation process, safety matters should also be paid attention to, because some raw materials and intermediates may be toxic and corrosive. Proper protective measures and waste disposal procedures are indispensable.

Physical & Chemical Properties

"Detection of Compounds"
The name of this product is 4-iodobenzonitrile (Benzonitrile, 4-Iodo-). Its substance is colored, often colorless to light yellow, and it looks like a liquid. It exists stably under the room temperature.
Regarding its physical properties, the melting degree is about 40 to 43 degrees Celsius. If the temperature rises to 283 degrees Celsius, it will turn into gas. This substance is slightly soluble in water, but easily soluble in alcohols, ethers and other agents.
Investigating its chemical properties, the nitrile group and the iodine atom are active. Nitrile groups can participate in many reactions, such as hydrolysis, to obtain acids; iodine atoms can also involve nucleophilic substitution, and react with other substances to generate new compounds. In the field of organic synthesis, this substance has a wide range of uses. It is a key raw material for the preparation of complex organic compounds, helps to synthesize novel structures, and adds color to the research of organic chemistry.

Technical Specifications & Labeling

Today, there is a name "4-iodobenzonitrile" (Benzonitrile, 4-Iodo -), which is very important in the field of chemical industry. Its process specifications and identification (product parameters) are the key to preparation and application.
To make this product, you need to follow a precise method. First take an appropriate amount of raw materials, control its quality and quantity, and put it into the device in a specific order. During the reaction, the control of temperature and pressure is indispensable. If there is a slight difference, the quality of the product will not meet expectations.
In terms of marking, note its physical and chemical properties in detail, such as color, taste, and melting point, and indicate its danger, as a warning mark. The product parameters must be accurate, such as purity and impurity content, which are all related to its use. In this way, it meets the requirements of process specifications and labels to make this product suitable for use in various fields.

Preparation Method

There is a method for making 4-iodobenzonitrile, which is described in detail below.
The raw materials should be mainly benzonitrile and iodide. For the synthesis process, first take an appropriate amount of benzonitrile, place it in a clean reactor, control the temperature to a suitable degree, and slowly add iodide. When reacting, pay attention to the temperature and the rate of stirring to make the two fully blend.
The first step is to initiate the reaction. When the system warms up slightly, the reaction starts. During this time, the reaction process is closely monitored to ensure that the reaction progresses stably. Next, the reaction gradually becomes complete. At this time, observe its phenomenon to show the degree of reaction.
Catalytic mechanism, or use a specific catalyst to accelerate the reaction rate and reduce the required energy for the reaction. The amount of catalyst is precisely controlled, and more affect the purity of the product, and less difficult to achieve the expected catalytic effect. In this way, according to this method of making 4-iodobenzonitrile, pure products may be obtained, which is beneficial to chemical research and production.

Chemical Reactions & Modifications

Nowadays, there is a chemical substance called "Benzonitrile, 4-Iodo-". For our chemical researchers, it is crucial to explore its chemical reactions and modifications.
To observe its reaction, or to combine with various reagents, under specific conditions, the molecular structure is rearranged and combined, and the chemical bond is broken and formed according to the inherent laws of chemistry. The rate and yield of the reaction are also affected by factors such as temperature, pressure, and catalyst.
As for modification, it is designed to optimize its properties. Or introduce specific groups to change its physical and chemical properties and make it suitable for a wider range of fields. After modification, it can enhance its stability or enhance its reactivity, which has potential applications in materials science, drug research and development, etc.
We should carefully study its reaction mechanism and refine the modification method, hoping to expand the use of this substance and contribute to the development of chemistry.

Synonyms & Product Names

"Identification of Different Names of Things"
There are many names of things, ancient and modern. In today's words, "Benzonitrile, 4-Iodo-" This thing, which is in the market, may have a special name. "4-Iodobenzonitrile", this is its proper name. However, among merchants, for the convenience of profit, or there are other names to attract customers.
Considering the ancient books, the medicinal stones and utensils all have the same name but different reality, and the different name and the same reality. Although the different names of this chemical thing have not been widely spread, they cannot be ignored. The origin of its different names may be due to the shape or the method of production, or it may be easy to remember.
Those who are learning should be poor in their authenticity and not be confused by different names. Between the changes in the market, they should also be clear about their correct names, so as not to mispurchase and misuse. It is our responsibility to make the name match the truth, the academic is correct, and the transaction is correct.

Safety & Operational Standards

4-Iodobenzonitrile is a commonly used substance in chemical research. During its experimental operation and storage, safety regulations are of paramount importance.
Anyone who comes into contact with this substance must first specify its properties. 4-Iodobenzonitrile has a specific chemical activity and encounters or reacts with other substances. Therefore, when operating, it is necessary to wear protective equipment, such as gloves, goggles, protective clothing, etc., to prevent it from touching the body, entering the eyes, causing skin damage, damage and eyes.
In the operating place, good ventilation is essential. An effective ventilation device must be installed to keep the indoor air fresh and avoid the accumulation of volatile gas from 4-iodobenzonitrile to prevent inhalation poisoning. And the operating table should be clean and neat, and the utensils used must be clean and complete to avoid impurities from mixing in, affecting the reaction, or causing danger.
When storing, there are also regulations. When placed in a cool, dry, and ventilated place, avoid heat, moisture, and exposure. It should be separated from oxidants, acids, bases, etc., because 4-iodobenzonitrile coexists with it, or reacts violently, endangering safety.
The operation steps also need to be rigorous. When using, when using suitable utensils, do it in quantity, not more or less. Weighing must be accurate, so as not to affect the experimental results, or cause other adverse. The reaction process, pay close attention, according to the predetermined conditions of temperature control, control, observe its changes, if there is any abnormality, take measures quickly.
After the experiment is completed, the remaining material should not be discarded at will. According to relevant regulations, properly dispose of to prevent pollution of the environment. The utensils used should be cleaned immediately and put in place for later use.
In short, the safety and operating standards of 4-iodobenzonitrile are related to the success or failure of the experiment, but also to the safety of the human body and the environment. All researchers must follow it carefully and not slack off.

Application Area

4-Iodo-benzonitrile (Benzonitrile, 4-Iodo -) is valuable in many application fields. It is often a key intermediate in the field of pharmaceutical synthesis. With its unique structure, specific groups can be introduced to make effective drugs.
In materials science, it also has wonderful uses. Or can participate in the construction of organic materials with special properties, such as those with unique optoelectronic properties. Ancient research materials, focusing on their quality and properties, 4-Iodo-benzonitrile can give materials different functions because of its iodine atom and cyanide properties.
And in the field of fine chemicals, it can be used as a raw material for the synthesis of special chemicals. The ancients developed and made the best use of everything. 4-iodobenzonitrile was based on this, and after ingenious synthesis, various fine products were obtained, adding luster to people's livelihood and industry.

Research & Development

In recent years, in the field of chemistry, I have focused on the study of 4-Iodo-Benzonitrile. Its unique nature is explored by many scholars in the academic world.
At first, analyzing its structure, we know that the iodine atom is connected to the benzonitrile group, forming this specific structure, and its electron cloud is unique, resulting in unique chemical activity. During the experiment, it was observed that it reacted in different temperatures, pressures and solvents. It was seen that when it encountered nucleophiles, it changed normally, and the rate and shape of the product were closely controlled by environmental factors.
The method of synthesis was also explored, and the old technique was improved to increase the yield and purity. The method of the past has a lot of impurities and takes a long time. Now it is a new way, which can efficiently obtain pure products and lay the foundation for subsequent research and use.
Looking to the future, 4-Iodo-Benzonitrile is expected to develop its talents in various fields such as pharmaceutical creation and material research and development. Or it can be a key intermediate for new drugs, with unique activity; or it can be used in functional materials to help its performance. We should strive to cultivate deeply, expand its use, and promote the progress of chemistry to benefit the world.

Toxicity Research

Study on the toxicity of 4-iodobenzonitrile
The toxicity of 4-iodobenzonitrile is the key to chemical investigation. 4-iodobenzonitrile has a unique molecular structure and contains iodine and benzonitrile groups.
In experimental observation, an appropriate amount of 4-iodobenzonitrile is administered to the tested organisms. See its gradual impact on the physiological function of the tested organisms. The metabolic rate of the organism may be sluggish, because 4-iodobenzonitrile may interfere with the process of biochemical reactions in the body. Its cell structure also changes, and the integrity of the cell membrane is challenged, resulting in cell dysfunction.
And 4-iodobenzonitrile may accumulate in organisms and be transmitted through the food chain, affecting the ecological level. Although its specific toxicity mechanism still needs to be further explored, it can be seen initially that its role in biological systems cannot be underestimated, which is related to ecological security and biological health. In the future, a rigorous method should be used to study the full picture of its toxicity.

Future Prospects

Benzoniitrile, 4-Iodo-, the thing that transforms things. I have been studying this for years, and my heart is surging with every thought and prospect of the future. Its nature is special, and it may be of great use in many domains. Before I know it, I hope to be able to reveal its secrets, explore its details, and use it for the world. Or it can be used in the research of new technologies to solve the difficulties of diseases; or it can help the progress of materials, and promote the development of work. I hope we can work together to break it down, so that this thing can be brought to life, and it can be used in the fields of materials, materials, etc., to make a big impact and benefit the world. This is the grand concept I have not yet studied, and it is also the prospect of studying this thing.

Where to Buy Benzonitrile, 4-Iodo- in China?

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Frequently Asked Questions

As a leading Benzonitrile, 4-Iodo- 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?

What are the chemical properties of this product? Let me take the ancient classical Chinese style as the king.
All kinds of things in the world have their unique chemical properties, and this product is no exception. It may be stable. Under normal circumstances, it is not easy to chemically react with the things around it. It is like a calm person who is not easily moved by the outside world. It can maintain its own shape and characteristics for a long time. It can withstand the wear of time and can maintain relative stability in different environments. This is one of them.
It may also be active. When encountering specific things, it will react quickly like dry wood when encountering fire. When they meet with certain reagents, they immediately undergo violent changes, or change color, or produce gas, or generate heat. The reaction is rapid, like a storm, showing strong chemical activity, and can interact with a variety of substances to generate new substances.
Furthermore, its solubility is also an important chemical property. Or soluble in water, just like salt is integrated into soup, it changes the nature of water invisibly, and blends with water molecules to form a uniform and stable system; or insoluble in water, but easily soluble in organic solvents, such as oil soluble in alcohol, showing different solubility characteristics in different solvents.
has its acid and alkali properties. Or acidic, it can neutralize with alkali, like yin and yang, forming salt and water, reaching a new balance in the chemical world; or alkaline, it can interact with acid, change the pH of the solution, and have a significant impact on the process and results of many chemical reactions. Fourth,
is more redox. Those with oxidation can oxidize other things, and themselves are reduced, just like the strong give the weak the power to change; those with reduction can reduce other things, and their own oxidation occurs, performing a wonderful play of gain and loss electrons on the stage of chemical reactions.
All these chemical properties are intertwined to outline the unique chemical appearance of this product, making it occupy a unique position in the field of chemistry and play an important role in various applications.

What fields is this product used in?

The use of this product involves a wide range of fields. In the field of agricultural mulberry, it can help to cultivate crops. If you work hard in the fields, you can save people's strength and increase land strength, so that the five grains are abundant and the warehouses are enriched. It is also of great benefit in irrigation. It can lead canal water to moisten the fields, so that droughts and floods are safe, and farmers can enjoy the benefits of stable harvests.
In the business of construction, it is also indispensable. Building city walls and building palace rooms, they can transport boulders and lift large trees, so that craftsmen can save many hardships. The construction of houses can be quick, sturdy and durable, and can shelter all people from wind and rain. And in the construction of boats, it can help with logging and planing, making boats strong and safe in rivers, lakes and seas, benefiting from large rivers and connecting the four sides of commerce.
In the military brigade, its use is also apparent. When siege, it can be used as a ladder to help, cross the city wall and enter the enemy formation; it can also make strong crossbow weapons, long-range shooting enemy bandits, making it difficult to get close. In the transshipment of grain and grass, it can save effort and efficiency, ensure that there is no shortage of military resources, and make the brave battle without worries.
Furthermore, it is made in the workshop. Craftsmen carve utensils and create tools of gold, silver, copper and iron, which can be used to make the utensils more delicate and the skills are more exquisite. And it can speed up production, make the industry of hundreds of workers prosperous, and produce a dazzling array of utensils to meet the needs of all people.
Even market trade, handling goods, it can also show its skills. It can make the goods of merchants flow conveniently, gather from all directions, and disperse to all places, making the market prosperous and commerce unimpeded. The use of this product is used in agriculture, industry, commerce, military and other fields, and it has contributed a lot to the well-being of all people in the world.

What is the preparation method of this product?

There is an artifact today, and if you want to know how to make it, you must study the ancient times, and ask everyone to go back to the past, so that you can understand it.
To observe the craftsmen of ancient times, the method of making artifacts, the first priority is to choose materials. The quality of the material is related to the quality of the artifact. For example, when casting a sword, you must seek fine iron and have a tough texture before you can cut iron like mud. If you use inferior materials for it, it will be unusable. Therefore, when choosing materials, you must be careful, observe its texture, texture, and color, and choose the best one and use it.
Secondly, the workmanship and skills of making artifacts are very important. To make exquisite artifacts, craftsmen need to be familiar with all kinds of techniques. Taking woodworking as an example, there is a fixed method for sawing, planing, chiseling, and cutting. The sawing whiskers should be straight, the planing surface should be flat, the holes should be cut correctly, and the shape should be accurate. Every process needs to be done with care, and there is no room for sloppiness. And the essence of skills cannot be obtained overnight, and it must be honed over many years to be handy.
Furthermore, the rules of the making tool cannot be ignored. The size, shape, and proportion of the tool are all customized. If a tripod is made, its size and decoration are strictly stipulated to show solemnity and majesty. If you do not follow the rules and do it at will, the tool will not take shape and lose its original function and meaning.
Also, when making a tool, be in awe. See the utensils as spiritual things, carefully carve them, and strive for perfection. In this way, only then can you make excellent utensils, pass them on to future generations, and be praised by future generations.
To sum up, the method of making utensils is based on material selection, skill-based, rules-based, and awe-inspiring. Only by having both of the four can you get the wonders of making utensils and create amazing utensils.

What is the market price of this product?

Looking at the city today, the price of this thing often changes for many reasons. Looking at the various markets, there are many categories, and the price is also different.
If you look at its root, the first thing is the material. Those who are of high quality, the price is high; those who are of poor quality, the price is low. For example, if you are a good gold and beautiful jade, its price is expensive, and its texture is pure, and it is rare in the world. If you are an ordinary thing, the material is ordinary, and the price must be flat.
Furthermore, craftsmanship is also the main reason. Those who are skilled in craftsmanship are time-consuming and laborious, and their price is not cheap. Craftsmen carve, and the things they make are exquisite and exquisite. Every time they are cherished by the world, it is reasonable to have a high price. If the craftsmanship is crude, although it has its shape, but the charm is insufficient, the price cannot be said to be high.
Also, the needs of the times also affect its price. If the world is in a hurry, there are many who need it. Although the quality and art are ordinary, the price will also rise. On the contrary, over time, the demand is few, and the price may fall.
And the origin is different, the price is also different. Produced in other places, transshipped over long distances, it is expensive and labor-intensive, and the price will increase. Locally produced, it saves a lot of trouble, and the price may be slightly lower.
The price of the city is still changing, not a word can be hidden. However, according to common sense, those with high quality, fine art, timely demand, and near production will have a considerable price; those with poor quality, clumsy art, discarded time, and distant production will have a difficult price. Buyers should observe it carefully, so as not to be confused by the price and get something satisfactory.

What are the storage conditions for this product?

The storage conditions of this product are as follows:
This product should be placed in a cool and dry place, away from direct sunlight, to prevent its properties from mutating. If exposed to the hot sun, the material may be damaged and the efficacy may be impaired. And it needs to be kept away from water sources. Due to excessive moisture, it is easy to make the product damp and moldy, which will damage its quality.
It should also not be stored with odorous things, otherwise this product will easily stain other flavors and lose its authenticity. The surrounding environment should be clean and free of foul gas, so as to keep its purity.
Where it is stored, the temperature should be moderate, not too high or too low. High temperature can easily deteriorate the product, and low temperature may cause its texture to change, affecting the use.
After taking it, it should be properly sealed to prevent air from invading, so as not to phase with various ingredients in the air and change its properties.
Place it in a place that is difficult for children to reach to prevent them from accidentally eating it and causing accidents.
Follow the above storage methods to keep this product in good condition for a long time, use it effectively, and perform its functions.