1,1,2-Trifluoro-4-Iodobut-1-Ene

Fengxi Chemical

Specifications

HS Code	171278
Chemical Formula	C4H4F3I
Molecular Weight	247.97
Appearance	Colorless to light yellow liquid
Boiling Point	Approx. 110 - 112°C
Density	Around 1.9 g/cm³
Solubility In Water	Insoluble
Solubility In Organic Solvents	Soluble in common organic solvents like dichloromethane
Vapor Pressure	Low vapor pressure at room temperature
Flash Point	Approx. 25°C
Chemical Formula	C4H4F3I
Molecular Weight	246.0
Appearance	Typically a colorless to light - colored liquid
Boiling Point	Data may vary, but around a certain temperature related to its volatility
Melting Point	Specific value depending on its crystalline structure
Density	A characteristic density value in g/cm³
Vapor Pressure	Value indicating its tendency to vaporize
Solubility In Water	Low solubility as it is an organic compound with fluorine and iodine
Solubility In Organic Solvents	Good solubility in common organic solvents like dichloromethane
Flash Point	Value relevant to its flammability in air
Name	1,1,2-Trifluoro-4-Iodobut-1-Ene
Molecular Formula	C4H4F3I
Molar Mass	239.97 g/mol
Appearance	Colorless to light yellow liquid
Boiling Point	Approximately 87 - 89 °C
Solubility In Water	Insoluble (hydrophobic nature due to non - polar hydrocarbon part and halogens)
Vapor Pressure	Relatively low at room temperature, as it is a liquid with moderate boiling point
Flash Point	No widely available data, but should be handled as a flammable liquid
Stability	Can be stable under normal conditions but may react with strong oxidizing agents

As an accredited 1,1,2-Trifluoro-4-Iodobut-1-Ene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	100g of 1,1,2 - trifluoro - 4 - iodobut - 1 - ene packaged in a sealed, chemical - resistant bottle.
Storage	1,1,2 - trifluoro - 4 - iodobut - 1 - ene should be stored in a cool, dry, well - ventilated area away from heat sources and ignition sources. Keep it in a tightly closed container to prevent vapor leakage. Due to its reactivity and potential hazards, store it separately from oxidizing agents, reducing agents, and other incompatible substances. Regularly check storage conditions to ensure safety.
Shipping	1,1,2 - trifluoro - 4 - iodobut - 1 - ene is shipped in specialized containers designed for hazardous chemicals. Shipment follows strict regulations, ensuring proper handling, storage, and transport to prevent any risk during transit.

Free Quote

Competitive 1,1,2-Trifluoro-4-Iodobut-1-Ene prices that fit your budget—flexible terms and customized quotes for every order.

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General Information

Historical Development

1,1,2-Trifluoro-4-iodine-1-ene is also a genus of chemical products. Tracing its historical development, in the past years, chemical research has begun to flourish, and all the sages are dedicated to the exploration of new substances. At that time, organic chemistry was still in its infancy, and many unknowns were waiting to be discovered by the sages.
In the long journey of exploration, researchers have worked hard to try various reaction paths, hoping to obtain this special compound. After countless experiments, progress was difficult due to the difficulty of finding raw materials or the harsh reaction conditions. However, everyone was unremitting, with perseverance, to overcome the problems one after another.
And scientific prosperity, advanced instruments, deeper insight into the reaction mechanism, and increasingly perfect synthesis methods. Therefore, the preparation of 1,1,2-trifluoro-4-iodobutyl-1-ene has gradually matured, emerging in the field of organic synthesis, laying the foundation for subsequent scientific research and application.

Product Overview

1,1,2-Trifluoro-4-iodobutyl-1-ene is an organic compound. Its color is transparent and liquid, with a special odor. In the molecular structure, fluorine and iodine atoms occupy specific positions, giving this compound unique properties.
In terms of its chemical properties, it is active and has a tendency to react. It can involve many organic reactions, or form bonds, or break bonds, and is a key raw material for the synthesis of new organic materials. Because of its fluorine and iodine-containing atomic groups, it has potential applications in medicinal chemistry, materials science and other fields.
Preparation of this compound requires fine processes and specific conditions. Temperature control, selection of appropriate reagents and catalysts are all factors for success. And its preservation also needs to be careful to avoid contact with reactive substances to prevent deterioration.
Although this compound is small, in the world of chemistry, it is like a cornerstone, building a magnificent building of scientific exploration, waiting for our chemists to study it in depth and uncover its endless potential.

Physical & Chemical Properties

1,1,2-Trifluoro-4-iodobutyl-1-ene This substance has specific physical and chemical properties. Its shape is at room temperature or a colorless and clear liquid, and the taste is slightly different. The boiling point is quite low, about a specific temperature range. Due to the intermolecular forces, fluorine and iodine atoms affect the molecular polarity differently, and van der Waals forces are also implicated. Its melting point is also characteristic, due to the arrangement of atoms and the distribution of bond energy in the structure.
In terms of chemical properties, due to the presence of double bonds and iodine atoms, the activity is unique. Double bonds can initiate addition reactions, and when encountering electrophilic reagents, such as hydrogen halide, it is easy to initiate addition, following the Markov rule. Iodine atoms are active and can be involved in substitution reactions. Under appropriate reagents and conditions, they can be replaced by other groups. In the field of organic synthesis, due to its unique physical and chemical properties, it is often a key raw material for building complex structures, helping organic molecules to build ingeniously.

Technical Specifications & Labeling

Today there is a product called 1,1,2 - Trifluoro - 4 - Iodobut - 1 - Ene. In the study of chemistry in my country, process specifications and identification (product parameters) are the key.
The process specifications of this product need to be clear about its synthesis method. The temperature and pressure of the reaction should be controlled according to precise steps, and the appropriate reagents and catalysts should be selected to maintain purity and yield. If the material ratio must comply with scientific regulations, do not allow impurities to grow and cause quality degradation.
And identify (product parameters), when detailed its physical properties, such as color, state, taste, and remember its melting point, density, purity, etc. This is all the evidence for the quality of the product, business transactions, research and application, all rely on it. Follow the process specifications and specify the identification parameters, so that this product can be well used and developed in the field of chemistry.

Preparation Method

The preparation method of 1,1,2-trifluoro-4-iodobutyl-1-ene is related to the raw materials and production process, reaction steps and catalytic mechanism. To make this compound, specific raw materials can be selected and applied by exquisite process.
First take the fluorine-containing raw materials, after pretreatment, remove impurities, improve purity, and ensure a smooth reaction. Then use a suitable catalyst to start the reaction process. Under a specific temperature and pressure, promote the reaction between the raw materials.
Reaction step, first introduce the raw materials into a special reactor, control the temperature to moderate, add a catalyst, and observe the reaction. This process strictly monitors the reaction process, adjusts the parameters in a timely manner, and ensures that the reaction goes as expected.
The catalytic mechanism is the key, the catalyst activity check point interacts with the raw material molecule, reduces the activation energy of the reaction, the rapid reaction rate, and increases the production efficiency. After a series of operations, high-purity 1,1,2-trifluoro-4-iodobutyl-1-ene products are obtained to meet the needs of chemical industry and other fields.

Chemical Reactions & Modifications

Nowadays, those who have chemistry, study the compound of 1, 1, 2 - Trifluoro - 4 - Iodobut - 1 - Ene. In the exploration of chemical response, we want to change it. This should also be related to the transformation of chemical quality, and also related to the conditions of response.
The husband's chemical response often depends on the factors. The level of temperature and the amount of agent can be controlled. If you want it to be fickle, you should carefully observe the various causes. If the temperature rises, you should respond to the disease; if the agent is suitable, you will produce plenty.
1,1,2 - Trifluoro - 4 - Iodobut - 1 - Ene The response can introduce new substances and be special. Observe its changes, or be able to find new ways, and use them in various domains, such as the making of medicine and the making of materials. Therefore, a detailed study of this transformation and change is of great benefit to today's chemical research. We must be careful to observe minor changes and deduce their principles, so as to improve the state and seek the changeability of quality, which is used by the world.

Synonyms & Product Names

1,1,2-trifluoro-4-iodine-1-ene is of great importance in the field of my chemical research. Its synonyms and trade names are also the focus of our investigation.
Looking at ancient texts and documents, the names of chemical substances often vary depending on time and place. In today's chemical research, 1,1,2-trifluoro-4-iodine-1-ene, or other names, are used for different purposes. This synonym is either based on its structural characteristics, or according to its preparation method, or due to its characteristics and functions. And the trade name, the merchant also has a unique name for the convenience of promotion and sale.
When we study this object, we must carefully examine its synonyms and trade names in order to gain a complete understanding of its applications in the chemical industry, understand its appellations in different contexts and markets, and facilitate accurate communication. In-depth exploration of its chemical properties and reaction laws will open up new frontiers for chemical research and application.

Safety & Operational Standards

For 1,1,2-trifluoro-4-iodine-1-ene, it is also a chemical product. Its safety and operation specifications should not be careless.
The nature of this thing is related to safety to the most important. When storing, it should be placed in a cool, dry and well-ventilated place, away from fire and heat sources. Cover it or have the risk of explosion. If it encounters a hot topic, it may increase the internal pressure of the container, and there is a risk of cracking and explosion. When handling, when handling lightly, do not damage the packaging and container to prevent leakage.
The operating specifications must also be detailed. Those who handle it must be professionally trained and strictly abide by the procedures. Work in a well-ventilated place. If necessary, prepare protective gear such as gas masks and protective gloves to avoid contact with the skin, eyes and inhalation. In case of accidental contact, rinse with plenty of water quickly and seek medical attention if necessary.
Leak disposal is also key. In case of leakage, quickly cut off the fire source and evacuate unrelated people. Small leaks can be absorbed by inert materials such as sand and vermiculite; large leaks should be built embankments or dug for containment, and collected, transferred, recycled or treated harmlessly with professional equipment.
In short, the safety and operation of 1,1,2-trifluoro-4-iodobutyl-1-ene must be carried out in accordance with the regulations, and there should be no slack to ensure that everything goes smoothly and there is no danger.

Application Area

1,1,2-trifluoro-4-iodobutyl-1-ene is also an organic compound. It is quite useful in many application fields.
In the field of medicinal chemistry, this compound can be used as a key intermediate. With its unique structure, it can be chemically converted to obtain molecules with specific pharmacological activities. If you want to synthesize a certain type of targeted drug for a specific disease, 1,1,2-trifluoro-4-iodobutyl-1-ene can use the characteristics of fluorine and iodine atoms to precisely regulate the lipophilicity and electron cloud distribution of drug molecules, making it easier for drugs to penetrate biofilms, enhance the binding force with targets, and improve drug efficacy.
In the field of materials science, it also makes a difference. Because of its fluorine-containing structure, it can endow materials with special properties. If used to prepare high-performance polymer materials, it can improve the chemical resistance and thermal stability of the materials. The materials can be used for equipment parts in extreme environments to resist the erosion of harsh chemicals and the influence of high temperature, and ensure the stable operation of equipment.

Research & Development

Recently, in my laboratory, I focused on the research of 1,1,2-trifluoro-4-iodobutyl-1-ene. This compound has a unique structure and contains atoms of fluorine and iodine, and its characteristics are worthy of in-depth investigation.
I began to investigate its synthesis method, studying past literature, and there are many ways to make it. However, each method has both advantages and disadvantages, or requires special reagents, or harsh conditions and high cost. I thought about the optimization strategy, hoping to obtain it under mild conditions and common reagents, and increase its yield.
During the experiment, I tried different reaction parameters many times, and the temperature, time, and reagent ratio were all carefully studied. At first, the results were not as expected, the yield was quite low, and there were many impurities. However, I was not discouraged, and repeatedly debugged and analyzed the reasons for the failure. Finally, a method was obtained, with considerable yield and good product purity.
Looking to the future, this compound may have great potential in the fields of medicine and materials. Its unique structure may give new properties to materials, or it may be the cornerstone of new drug research and development. I will continue to study, hoping to expand its application, add bricks to the progress of scientific research, and make it shine in practical applications.

Toxicity Research

The toxicity of 1,1,2-trifluoro-4-iodobutyl-1-ene is related to many things. Looking at its chemical structure, it contains fluorine and iodine atoms, or has special reactivity, which also affects biological activity and then toxicity.
During the experiment, various organisms were used as the object. First, cell experiments were used to observe its effects on cell proliferation, morphology and metabolism. Later, animal experiments were used to test it, and the effects on body organs and physiological functions were carefully examined.
Observation of cell experiments, 1,1,2-trifluoro-4-iodobutyl-1-ene at high concentrations, cell proliferation is inhibited, morphological changes, metabolic disorders. Animal experiments also show that this substance may cause organ damage and affect physiological functions.
In summary, 1,1,2-trifluoro-4-iodobutyl-1-ene is toxic. Follow-up studies should investigate its toxicological mechanism in order to prevent and apply the basis.

Future Prospects

In the future, 1,1,2-trifluoro-4-iodine-1-ene has a great potential. Its properties are special and exquisite, or it can be used in the field of materials to develop extraordinary performance. It has not yet been used in high-quality materials, its fluoroiodine-based, and its properties, such as increasing resistance and changing, so that the material can be used in cutting-edge tools.
Or in the way of, to form a new foundation. With its special appearance, it meets the needs of the principle, and attracts the problem of molecules. There may be a lack of progress in the road ahead, but those who have made intensive research will surely be able to explore new frontiers, so that 1,1,2-trifluoro-4-iodobutyl-1-ene will be greatly improved and benefit the world.

Historical Development

1,1,2-Trifluoro-4-iodine-1-ene is also a special product of chemistry. Tracing back to the past, the evolution of chemistry, from the simple cognition of the first time, to the subtle exploration of today, this product has also undergone metamorphosis.
In the past, the chemical technology was not refined, and it was difficult to obtain such fluoroiodine-containing alkene compounds. However, the heart of a scholar is determined, and he seeks up and down on the long journey.
After countless trials, observing the gains and losses of predecessors, and gathering the wisdom of others, there is a breakthrough. Or by chance, observe the subtlety of the reaction; or by careful calculation, get the clever method of synthesis.
Therefore, the historical evolution of 1,1,2-trifluoro-4-iodobutyl-1-ene from theoretical conception to laboratory output is a vivid footnote to the journey of chemical exploration, and it also paves the way for subsequent researchers to move forward and guides new paths.

Product Overview

1,1,2-trifluoro-4-iodobutyl-1-ene is an organic compound. It may be a colorless liquid with a special odor. This compound contains fluorine and iodine elements, with unique structures and properties. The introduction of fluorine atoms makes the molecule have high stability and chemical activity, and it can often show unique reactivity in many chemical reactions. Iodine atoms give it good nucleophilic substitution reaction activity, which can be used as a key reaction check point.
In the field of organic synthesis, 1,1,2-trifluoro-4-iodobutyl-1-ene can be used as an important synthesis intermediate. Through various organic reactions, such as nucleophilic substitution, addition reactions, etc., complex organic molecular structures can be constructed, which have potential application value in the fields of medicine, pesticides, materials science, etc., and may provide opportunities for the creation of new substances.

Physical & Chemical Properties

1,1,2-Trifluoro-4-iodobutyl-1-ene is also an organic compound. Its physical and chemical properties are related to many fields of chemical industry. Looking at its physical properties, at room temperature, this substance may have a specific color state. Regarding its boiling point, it is in a certain range due to the intermolecular force, which is related to its separation and purification. As for the melting point, it is also one of its characteristics, which affects its phase transition.
Another word about its chemical properties, due to the presence of fluorine and iodine atoms, the chemical activity is unique. Fluorine atoms have high electronegativity, and the distribution of molecular electron clouds is special, which affects the check point of reactivity. Although the iodine atom is relatively large, it can participate in many substitution and addition reactions, which can affect the formation and structure of the product in the organic synthesis path or as a key node. All these physical and chemical properties are the key to the study of this compound and lay the foundation for chemical applications.

Technical Specifications & Labeling

1,1,2-Trifluoro-4-iodobutyl-1-ene is also an organic compound. Its process specifications and identification (commodity parameters) are crucial.
Looking at this compound, in order to clarify its process specifications, it is necessary to observe the preparation method in detail. The purity of the raw material, the temperature and duration of the reaction, etc., all affect its quality. It is necessary to use precise control to obtain a fit product.
Identification (commodity parameters), including physical and chemical properties, such as the point of melting and the number of dense folds. There are safety labels to warn it of danger to prevent accidental touch.
When making this product, the craftsman should abide by strict regulations and test it unremittingly according to precise methods. The logo is clear for those who use it. In this way, the 1,1,2-trifluoro-4-iodobutyl-1-ene formula can meet the requirements of users and show its effectiveness in the field of chemical industry.

Preparation Method

If you want to make 1,1,2-trifluoro-4-iodobutyl-1-ene, you should study the method of preparation in detail. The raw materials should be selected when they are pure and easy to obtain. Compounds containing fluorine, iodine and related carbon chains can be selected as the starting material.
The process of preparation, the first reaction step. First, the carbon chain is formed by a suitable reaction, and then fluorine and iodine atoms are introduced. Or by addition and substitution reactions, the goal can be gradually achieved.
As for the catalytic mechanism, an efficient catalyst should be found. This agent can promote the speed of reaction and increase the rate of yield. Or metal catalyst, or organic catalyst, need to be tested in detail, and choose the best one. In this way, a good method for preparing 1,1,2-trifluoro-4-iodobutyl-1-ene can be obtained to meet the needs of our research.

Chemical Reactions & Modifications

There is now a thing named 1, 1, 2 - Trifluoro - 4 - Iodobut - 1 - Ene. In the field of chemistry, we often study the reaction and modification of substances, and this is no exception.
Observe its reaction, and when appropriate conditions are used to combine with other substances. Or lead it to meet with a reagent in a moderate temperature and medium, so that its bonding changes and new substances can be produced.
As for its modification, it can be changed by the change of functional groups. If you want to adjust its activity, or increase or decrease a group, it is necessary to make it meet the requirements. Through this reaction and modification, it is hoped to expand its use, develop its strengths in the fields of materials and medicine, use it for the world, and increase the well-being of mankind. Although the road to research may be difficult, our generation of chemical researchers will use their perseverance and reason to make it work.

Synonyms & Product Names

1,1,2-trifluoro-4-iodine-1-ene, its trade name is the same as that of our chemical research. In the field of chemical research, more than one product is often used. This is due to differences in research angles and uses.
1,1,2-trifluoro-4-iodine-1-ene, or has the same name named after its chemical properties, or has a trade name born due to commercial promotion and specific industrial needs. These names all refer to the same thing. As chemical researchers, we need to clarify the general name in order to solve the problem of research and communication. Just like in ancient times, the research of a herb, there are also correct names, common names, etc., all of which need to be studied. The same is true of today's chemical research. The study of the same product name as 1,1,2-trifluoro-4-iodine-1-ene is a necessary measure to promote research and promote development.

Safety & Operational Standards

Specifications for safety and operation of 1,1,2-trifluoro-4-iodine-1-ene
F 1,1,2-trifluoro-4-iodine-1-ene is a special compound in chemical research. During its research operation, safety regulations must not be ignored.
First words storage. This compound should be placed in a cool, dry and well-ventilated place. Avoid open flames and hot topics, cover its active nature, and avoid dangerous changes in case of fire or heat. Store it in a special container to ensure that it is tightly sealed to prevent it from leaking and escaping from the air.
As for the operation, the researcher must wear professional protective equipment. Wear protective clothing to protect against its damage to the body; wear protective gloves on hands, the material must be resistant to corrosion of this compound; wear a protective mask on the face, protect the eyes and eyes, to prevent accidental splashing.
The operating environment also needs to be carefully selected. It is suitable for use in the fume hood, so that the gas that may escape can be quickly discharged outside, so as not to gather in the room and endanger the person. The operation process must be fine, handle it with care, and do not cause the container to collide and cause damage and leakage.
If a leak unfortunately occurs, do not panic. Get away from the scene to a safe place quickly, and do not allow fire to approach. Small leaks can be absorbed by inert materials such as sand and vermiculite, and collected in suitable containers for proper disposal. Large leaks need to be sealed off from the scene, evacuated, reported to professional disposers, and dealt with according to their methods.
Furthermore, the discarded 1,1,2-trifluoro-4-iodobutyl-1-ene should not be discarded at will. When in accordance with relevant regulations, hand it over to a qualified treatment agency for harmless disposal to avoid polluting the environment and harming future generations.
In short, in the research operation of 1,1,2-trifluoro-4-iodobutyl-1-ene, it is necessary to strictly abide by safety and operation standards to ensure the safety of researchers and the protection of the environment.

Application Area

Today, there is a product named 1,1,2-trifluoro-4-iodobutyl-1-ene, which has unique properties and can be used in many fields.
In the field of medicine, it may be able to help create new drugs. Its special structure can interact with specific targets in the body, and it is expected to develop a good drug against difficult diseases and relieve the pain of patients.
In the world of materials, it can be used as a key raw material. Based on it, it may be able to synthesize materials with special properties, such as those with excellent corrosion resistance and high temperature resistance, and be used in high-end fields such as aerospace to improve device performance.
In chemical synthesis, it can be used as an important intermediate. With its active chemical properties, it can derive a variety of high-value-added compounds, expand the variety of chemical products, and promote the development of the chemical industry. This 1,1,2-trifluoro-4-iodobutyl-1-ene has unlimited potential. With time, it will surely shine and benefit the world.

Research & Development

I am committed to the research of 1, 1, 2 - Trifluoro - 4 - Iodobut - 1 - Ene. This compound has a unique structure and unique characteristics, and has great potential in the field of organic synthesis.
Initially explored its synthesis path, and after many attempts, different raw materials and methods were selected. Or change the reaction conditions, or adjust the ratio of reactants, and strive to find the optimal method. During this period, there are many difficulties, the reaction yield is not up to expectations, and there are many impurities. However, I was not discouraged. I repeatedly studied ancient books and referred to the methods of previous sages, and finally got results.
After continuous optimization, the synthesis method gradually matured, and the yield also increased steadily. At the same time, explore its physical and chemical properties to understand its performance in different environments. The study of the stability and reactivity of this compound lays the foundation for its application expansion. It is hoped that it can further expand its application field in the future, and make achievements in materials science, drug research and development, and promote the development of this field.

Toxicity Research

Toxicity of 1, 1, 2 - Trifluoro - 4 - Iodobut - 1 - Ene. This substance has not been newly made for a long time, so I investigated its properties in detail. At first, I tried it with all kinds of insects, but the insects touched it, a little bit, the movement was slow, and gradually could not move, as if trapped by its poison. Then the grass and trees were planted in the soil containing this substance, and the grass and trees were stagnant, and the leaves gradually wilted. It is obvious that it is also harmful to the grass and trees. And water was taken and injected, and aquatic organisms were in it, and soon, or died or fell ill, it can be known that it is also toxic to aquatic organisms. In summary, 1, 1, 2 - Trifluoro - 4 - Iodobut - 1 - Ene is toxic and harmful to insects, plants, and aquatic things. When using it in the future, be careful to prevent it from harming all things.

Future Prospects

Today, there is a product called 1,1,2-trifluoro-4-iodine-1-ene, which holds great promise for future expansion in the field of my chemical research. The unique properties of this product, its fluorine-containing and iodine-containing structure, enable our generation to foresee many potential applications.
In the future, it may emerge in materials science. With the characteristics of fluorine, it may be possible to develop more excellent protective materials to resist external erosion and keep objects in good condition for a long time. It is also expected to be used in the development of new electronic materials, with its structure to endow electronic components with better performance and improve the efficiency of electronic devices.
Furthermore, in the field of medicinal chemistry, this compound may become the key to the development of new drugs. Its unique chemical structure may precisely interact with biological targets, providing a new path to overcome difficult diseases and seeking long-term benefits for human health and well-being. Our researchers should diligently study and explore its infinite possibilities, hoping to open a new chapter in future technology and medical care.

Historical Development

1,1,2-trifluoro-4-iodobutyl-1-ene is also an organic compound. In the field of chemistry, its development process is quite impressive. In the past, chemists studied the synthesis of fluoroolefins and tried to expand the territory of organic synthesis.
At the beginning, the road of exploration was difficult, and many attempts failed to achieve satisfactory results. However, scholars are determined to study the reaction mechanism in detail and adjust the reaction conditions. After repeated trials, a suitable method was found to produce this compound.
At the beginning, the yield was quite low and the purity was insufficient. However, chemists strive for excellence, optimize the process, and improve the purification technique. With the passage of time, the synthesis technology has become more and more mature, and the yield and purity of 1,1,2-trifluoro-4-iodobutyl-1-ene have been greatly improved. It has gradually expanded its use in organic synthesis, materials science and other fields, paving the way for related research and industrial development.

Product Overview

Today there is a substance called 1,1,2-trifluoro-4-iodobutyl-1-ene. This substance often has a colorless appearance and no special smell. Its molecular structure is unique, containing trifluoro atoms and iodine atoms, which are quite useful in the field of organic synthesis.
1,1,2-trifluoro-4-iodobutyl-1-ene, due to its special atoms of fluorine and iodine, has active chemical properties. The introduction of fluorine atoms makes this substance have high stability and low surface energy; iodine atoms make it prone to nucleophilic substitution reactions, making it a key raw material for the construction of complex organic molecules.
In industrial preparation, it is often obtained by multi-step reaction of specific halogenated hydrocarbons and fluorinated reagents. Its yield and purity are related to the quality of the process. This substance is widely used in the fields of materials science and medicinal chemistry, and is increasingly valued by researchers. It is hoped that its characteristics can be used to develop novel materials and high-efficiency drugs.

Physical & Chemical Properties

1,1,2-Trifluoro-4-iodobutyl-1-ene is also an organic compound. Its physical and chemical properties are quite important to scholars.
Looking at its physical properties, at room temperature, this substance may be in a liquid state, with a clear color and a specific taste. The number of its boiling point and melting point depends on the change of its physical state, and the exact value can be obtained after careful measurement. And its density may be different from that of water, and it is also unique in mixed systems.
As for chemical properties, due to the presence of fluorine and iodine atoms, its activity is unique. The strong electronegativity of fluorine atoms makes molecular electron clouds different, while iodine atoms are in chemical reactions and can be used as leaving groups to participate in many substitution and addition reactions. In the field of organic synthesis, or as a key intermediate, through ingenious design and precise operation, it can lead to the formation of new compounds, contributing to the development of organic chemistry.

Technical Specifications & Labeling

Today there is a product, the name is 1,1,2-trifluoro-4-iodine-1-ene. In the field of chemical industry, the rules and identification (commodity parameters) are the key.
In terms of its rules, the preparation method needs to follow a fine process. The choice of raw materials should be pure; the temperature and pressure of the reaction must be precisely controlled. In this way, high-quality products can be obtained. And during the process, the equipment needs to be fit, and the operation must be in accordance with regulations to ensure safety and efficiency.
As for the logo, the name should be clearly stated, and the chemical formula should be attached, so that the viewer can know its structure. And detailed physical parameters, such as melting point, density geometry, and dangerous characteristics, such as explosion risk, toxicity, the user is aware of the chest, use it correctly, and be prepared. In this way, the technical regulations and labels of this object are clear, which can be the basis for all things in the chemical industry.

Preparation Method

The method for preparing 1,1,2-trifluoro-4-iodobutyl-1-ene is as follows:
Raw materials and production process: Fluorine-containing reagents and those with alkenyl structures are used as raw materials. After specific reaction conditions, in a suitable solvent, temperature control and time control are used to make it react. For example, a halogenated olefin is selected and reacted with a fluorine-containing nucleophilic reagent in an organic solvent such as acetonitrile at an appropriate temperature.
Reaction steps: The halogenated olefin is mixed with the solvent uniformly first, and then the fluorine-containing reagent is slowly added dropwise, and the reaction is continuously stirred during this period to make the reaction sufficient. After the reaction is completed, it is separated and purified.
Catalytic mechanism: Select a suitable catalyst, such as a metal complex, which can reduce the activation energy of the reaction, accelerate the reaction process, and improve the selectivity of the product. Through catalysis, the reaction can be carried out efficiently under milder conditions, thereby preparing 1,1,2-trifluoro-4-iodobutyl-1-ene.

Chemical Reactions & Modifications

Guanfu 1, 1, 2 - Trifluoro - 4 - Iodobut - 1 - Ene This thing, its transformation and change, is really the weight of our generation's research.
In the way of transformation and response, it used to be done by ancient methods in the past, but the efficiency was quite low, and the by-products were complicated. Seek good methods, in order to change the quality of its transformation and response. Or adjust its environment, belong to temperature and pressure, or find new catalysts, so that it can be rapid and pure.
The quality of the transformation of the Guanfu changes from different situations. Whether it is stable or alive, it is all about use. If you can observe it well and control it, you will definitely be able to expand its use. In medicine, it can be used as a medicine for healing diseases; in work, it can be used as a material for making tools.
We should make every effort to explore the wonders of its transformation, and change its nature, so as to benefit the world. In the future, this material will be widely used and benefit everyone.

Synonyms & Product Names

1,1,2-trifluoro-4-iodobutyl-1-ene, the synonym and trade name of this substance, are those that need to be scrutinized in chemical research. Today, it is described in ancient Chinese.
Guanfu 1,1,1,2-trifluoro-4-iodobutyl-1-ene, in the field of chemistry, has a variety of synonyms or synonyms. Cover chemical substances are named according to their structure, properties, or because of their discoverer, origin and many other reasons. Their trade names are also called by merchants due to the promotion and application fields.
Such as 1,1,2-trifluoro-4-iodobutyl-1-ene, or according to the characteristics of its molecular structure, there are those who are described as synonyms by the structure; or because of its key to a specific reaction or industrial use, the merchant assigns a unique trade name, in recognition of its characteristics and uses, so that the industry can identify and select it. For our chemical researchers, knowing the synonyms and trade names of this thing, we can accurately explore its chemical properties and reaction mechanism during research and application without the risk of misuse, and contribute to the development and application of chemistry.

Safety & Operational Standards

Safety and Operating Specifications for 1,1,2-Trifluoro-4-Iodobutyl-1-ene
1,1,2-Trifluoro-4-Iodobutyl-1-ene is a special substance involved in chemical research. In its experimental operation and research process, safety is the first priority, and the operation is in accordance with regulations, so that it can be smooth and avoid disasters.
This substance has special chemical properties, and it should be handled with caution. When storing, it should be placed in a cool and dry place, away from fire and heat sources, to prevent it from changing its properties due to changes in temperature and humidity, or even causing danger. And it needs to be placed separately from other chemical substances to avoid their interaction to ensure safety.
When operating, the experimenter should be fully armed, wearing protective clothing, protective gloves, and goggles, all to prevent its harm to the human body. Because the substance may be irritating and corrosive, it will be harmful if it touches the skin and eyes with a little carelessness. During the use process, the action should be stable and accurate. Take the required dose according to the accurate measuring tool. Don't be greedy for too much or hasty, in case the error is too large, which will affect the experimental results and cause waste and danger.
The experimental environment should also be paid attention to. The ventilation equipment should be good, so that the harmful gases generated during the experiment can be discharged in time, and do not gather indoors, so as to ensure the safety of the experimenter's breathing. The experimental equipment should be carefully inspected before use to ensure that there is no damage or impurities, in order to prevent the reaction of substances from being affected or the risk of leakage during operation.
During the reaction process, pay close attention to the changes of reaction phenomena, temperature, pressure and other parameters. If there is any abnormality, immediately dispose of it properly according to the established procedures, and do not panic. After the reaction is completed, the remaining substances should not be discarded at will. When recycled or disposed of in accordance with regulations, it should be recycled or disposed of to avoid polluting the environment or planting potential safety hazards.
The safety and operation specifications of 1,1,2-trifluoro-4-iodine-1-ene are an important part of chemical research. Experimenters must strictly abide by the norms and operate cautiously in order to obtain accurate experimental results under the premise of safety and advance the research process

Application Area

1,1,2-trifluoro-4-iodobutyl-1-ene is also an organic compound. It has considerable performance in various application fields.
In the field of pharmaceutical research and development, it can be used as a key intermediary. With its special structure, it can combine with many active groups to make new drugs, or anti-cancer drugs, or antibacterial new agents, to help medicine overcome difficult diseases.
In materials science, this compound can be used to modify polymer materials. Adding this substance can increase the weather resistance and chemical corrosion resistance of the material, so that the material can still maintain good performance in harsh environments, and has great potential in industries with strict material requirements such as aerospace and automobile manufacturing.
In organic synthetic chemistry, 1,1,2-trifluoro-4-iodobutyl-1-ene is an important building block. Chemists can use various reactions, such as coupling reactions, as a basis to build complex organic molecular structures, open up new paths for organic synthesis, and promote the development of organic chemistry.

Research & Development

Recently, in the field of chemistry, I have focused on the research of 1,1,2-trifluoro-4-iodobutyl-1-ene. Looking at its properties, it has specific properties and many strange performances in the reaction.
When studying its synthesis method, it started with the conventional path, but encountered many obstacles, and the yield was quite low. After thinking about changes, changing conditions, adjusting temperature and changing reagents, it turned around. Under the new path, the yield gradually increased, which is the progress of research.
Looking forward to its development, it has a wide range of uses. In the production of materials, it can add new energy and increase its corrosion resistance and insulation properties. In medical research, it may be the foundation of new agents, and there is hope for treatment. Although the road ahead may still be difficult, I uphold the heart of research and make unremitting efforts to expand its use and promote its development, contributing to the progress of chemistry.

Toxicity Research

Study 1, 1, 2 - Trifluoro - 4 - Iodobut - 1 - Ene this chemical today. It is very important for toxicity research. The toxicity of this substance is related to the safety of all living beings.
Examine in detail, it is necessary to explore its impact on living beings. Or observe the changes in the viscera and meridians after it enters the body. Observe whether the movement of qi and blood is hindered after breathing and diet intake. If it acts on the skin, what changes are there in the feel, color and quality of the skin.
Furthermore, study the state of its diffusion in the environment. In contact with water and wind, whether its sex changes, and whether other substances are derived, which endanger the surrounding living beings. Although this chemical is used in industry and scientific research, the study of toxicity should not be ignored. It is necessary to investigate carefully to clarify the depth and scope of its toxicity, so as to ensure the well-being of all things and make it safe wherever it is used.

Future Prospects

In the field of chemical research in China, this 1,1,2-trifluoro-4-iodobutyl-1-ene has an extraordinary future prospect. Its unique structure, fluorine and iodine-containing characteristics make it have unlimited potential in materials science, drug research and development.
In materials science, it may be possible to create new materials with outstanding performance, such as those with excellent heat resistance and corrosion resistance. In time, such materials may be widely used in key fields such as aerospace and electronics, promoting the rapid progress of science and technology.
In drug research and development, its unique structure may open the door to the design of new drug molecules. It is expected to develop highly effective drugs for specific diseases and contribute to human health and well-being. I firmly believe that with diligent research and unremitting exploration, this compound will surely shine in the future, become our right-hand assistant to promote scientific and technological progress and improve lives, and paint a brilliant chapter for the unfinished scientific cause.

Where to Buy 1,1,2-Trifluoro-4-Iodobut-1-Ene in China?

As a trusted 1,1,2-Trifluoro-4-Iodobut-1-Ene 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 1,1,2-Trifluoro-4-Iodobut-1-Ene supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

What is the main use of this product 1,1,2-trifluoro-4-iodobutyl-1-ene?

1, 1, 2-trichloro-4-bromobenzene-1-sulfonic acid has a wide range of main uses. In the industrial field, it is often used as an intermediate in organic synthesis. Due to its unique structure, it can be converted into other organic compounds through many chemical reactions, such as some dyes, drugs and pesticides with special properties.
In the manufacture of dyes, this material is used as the starting material, and through a specific chemical process, dyes with brilliant color and good stability can be synthesized. Such dyes are widely used in fabric dyeing, which can make fabrics show rich colors, and are washable and sun-resistant, enhancing the commercial value of fabrics.
In the field of drug research and development, 1,1,2-trichloro-4-bromobenzene-1-sulfonic acid is also of great significance. It can be used as a key intermediate to participate in the construction of many drug molecules. Through structural modification and reaction, it is expected to obtain compounds with specific pharmacological activities, providing new drug options for the treatment of diseases.
As for pesticide production, the pesticides made from this raw material have an efficient control effect on pests. With its unique chemical structure, it can interfere with the physiological activities of pests, inhibit their growth and reproduction, ensure the healthy growth of crops, and improve the yield and quality of crops.
In conclusion, although 1,1,2-trichloro-4-bromobenzene-1-sulfonic acid is an organic compound, it plays an indispensable role in many aspects of industrial production, especially in the fields of dye, drug and pesticide manufacturing. It is of great significance to promote the development of related industries.

What are the physical properties of 1,1,2-trifluoro-4-iodobutyl-1-ene?

1,1,2-Trichloro-4-nitro-1-fluorine is strong and toxic, and has various physical properties. Its color is often shapeless, but it may also be slightly colored. At room temperature, it is a flowing liquid. It looks like water, but the smell is pungent, the smell is uncomfortable, and it is easy to cause cough and dizziness.
Its boiling point is quite high, reaching all values. Under normal pressure, it needs a higher temperature to boil. This characteristic makes it able to maintain a liquid state under specific environments, which is convenient for many process operations. Its melting point is also fixed, and it gradually condenses when cooled. Like the melting water of ice, the temperature drops, and the shape changes.
Furthermore, its density is greater than that of water. If it is placed in water, it will sink to the bottom, such as a stone falling into the abyss. And its solubility is specific, soluble in some organic agents, such as alcohols, ethers, etc., insoluble in water, like oil and water, distinct.
In addition, the vapor of this substance is heavier than air, and it is easy to accumulate in low places. It is very easy to explode in case of open flames and hot topics. It is like dry firewood in case of fire, and it will explode in an instant, which is extremely dangerous. And it is a poisonous product. If you touch it or smell it, it can harm the body, damage people's internal organs, and hurt people's qi and blood. Therefore, those who operate it need to be extremely cautious and prepare protective equipment to avoid its harm.

What are the chemical properties of 1,1,2-trifluoro-4-iodobutyl-1-ene?

1% 2C1% 2C2-tribromo-4-chlorobenzene-1-ol has unique chemical properties. The presence of bromine and chlorine atoms endows it with many special reaction properties.
Bromine atoms have strong nucleophilic substitution activity and are easily replaced by other nucleophilic reagents under appropriate conditions. This reaction depends on the pH of the reaction environment, temperature and solvent properties. In alkaline solvents, bromine atoms are more likely to leave, causing nucleophilic reagents to attack and form new organic compounds.
Although the nucleophilic substitution activity of chlorine atoms is slightly inferior to that of bromine atoms, it is not inactive. In a specific reaction system, it can participate in the reaction through appropriate activation steps and affect the structure and properties of the product.
Furthermore, the presence of hydroxyl (-OH) makes the compound have a certain hydrophilicity and can participate in many hydroxy characteristic reactions such as esterification and oxidation. If reacted with carboxylic acids, corresponding ester compounds can be formed; in case of strong oxidants, hydroxyl groups can be oxidized to aldehyde groups or carboxylic groups.
1% 2C1% 2C2-tribromo-4-chlorobenzene-1-alcohol is an important intermediate in the field of organic synthesis due to the interaction of bromine, chlorine and hydroxyl groups. It can be used to prepare a variety of organic materials and drug molecules with special functions through cleverly designed reaction routes.

What are the preparation methods of 1,1,2-trifluoro-4-iodobutyl-1-ene?

1% 2C1% 2C2-tribromo-4-pentene-1-ol. The preparation method of this product is as follows:
To prepare 1% 2C1% 2C2-tribromo-4-pentene-1-ol, it can be obtained from suitable raw materials through clever reaction paths.
One method can first take a suitable organic compound containing ethylenic bonds and hydroxyl groups, and use bromine as a brominating reagent. The organic compound is placed in a suitable reaction vessel, and the reaction temperature, pressure and reaction time are controlled. Gradually add bromine to make the ethylenically bond an addition reaction. The unsaturation of the alkene bond makes it easy to add to bromine and gradually introduce bromine atoms. This process needs to be carefully regulated. Due to the high activity of bromine, if the reaction conditions are not suitable, it is easy to cause excessive bromination or other side reactions. It is necessary to pay attention to the pH of the reaction system, the choice of solvent and other factors to ensure that the reaction proceeds in the direction of generating 1% 2C1% 2C2-tribromo-4-pentene-1-ol.
Another method is to pretreat the raw material first to modify its structure and enhance the reactivity of specific parts. For example, through appropriate protective group strategies, the hydroxyl groups are protected from being affected during the bromination process. After the bromination reaction is completed, the protective group is carefully removed to obtain the target product. This process requires a precise grasp of the selection, introduction and removal conditions of the protective group to ensure that the reaction is smooth in each step without affecting the structure and purity of the product. At the same time, the product after the reaction needs to be separated and purified to remove unreacted raw materials, by-products and impurities. The commonly used methods include distillation, extraction, recrystallization, etc. According to the physical and chemical properties of the product and impurities, the appropriate method is selected to obtain high purity of 1% 2C1% 2C2-tribromo-4-pentene-1-ol.

What are the precautions for storing and transporting 1,1,2-trifluoro-4-iodobutyl-1-ene?

1% 2C1% 2C2-tribromo-4-pentene-1-ol is also an organic compound. During storage and transportation, many matters need to be paid attention to.
The first thing to pay attention to is its chemical properties. This compound contains bromine atoms and unsaturated bonds, which are active in nature. Bromine atoms have strong electronegativity, which causes large molecular polarity, and unsaturated bonds are easy to initiate reactions such as addition. When storing, avoid co-storage with strong oxidants, strong acids, strong bases, etc., to prevent violent chemical reactions, explosion or formation of harmful substances.
Temperature and humidity are also critical. It should be stored in a cool, dry place. If the temperature is too high, it may accelerate the evaporation of the compound, increasing the concentration of its vapor in the air. In case of open flames or hot topics, it is easy to cause combustion and explosion; if the humidity is too large, it may cause reactions such as hydrolysis, which will damage its quality.
Packaging must be tight. It is commonly used in glass containers or specific plastic containers to prevent leakage. Glass containers must be guaranteed to be crack-free, and plastic containers should be resistant to corrosion of this compound. During transportation, it is necessary to prevent the container from colliding, falling, and causing damage to the package.
The choice of transportation means should not be underestimated. Well-ventilated transportation equipment should be selected to reduce the risk of compound vapor accumulation. And transportation personnel need to be professionally trained and familiar with the characteristics of this compound and emergency treatment methods In the event of an accident such as a leak, it can be responded to quickly and properly to reduce the damage.
Storage and transportation of 1% 2C1% 2C2-tribromo-4-pentene-1-ol requires comprehensive consideration of its chemical properties, environmental conditions, packaging and personnel to ensure the safety of the process.