(S)-3-(4-(2-Chloro-5-Iodobenzyl)Phenoxy)-Tetrahydrofuran

Fengxi Chemical

Specifications

HS Code	855989
Chemical Formula	C18H16ClIO2
Molecular Weight	428.68
Appearance	Solid (predicted)
Solubility	Soluble in organic solvents (predicted)
Logp	Predicted value indicating lipophilicity

As an accredited (S)-3-(4-(2-Chloro-5-Iodobenzyl)Phenoxy)-Tetrahydrofuran factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	500g of (s)-3-(4-(2 - chloro - 5 - iodobenzyl)phenoxy) - tetrahydrofuran in sealed chemical - grade packaging.
Storage	Store (s)-3-(4-(2-chloro-5-iodobenzyl)phenoxy)tetrahydrofuran in a cool, dry place, away from direct sunlight. Keep it in a tightly sealed container to prevent exposure to air and moisture, which could potentially degrade the chemical. Ensure the storage area is well - ventilated and separated from incompatible substances like strong oxidizers or reactive chemicals.
Shipping	Ship (S)-3-(4-(2 - chloro - 5 - iodobenzyl)phenoxy)tetrahydrofuran in sealed, specialized containers. Ensure compliance with chemical shipping regulations, and label clearly for safe and proper handling during transit.

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(S)-3-(4-(2-Chloro-5-Iodobenzyl)Phenoxy)-Tetrahydrofuran

General Information

Historical Development

Scholars who have heard of ancient times have studied the principles of all things, and have also studied chemical things quite carefully. Today there is (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran, and its historical development is really impressive. In the past, chemistry was not developed, and many substances were not well known to the world. After the efforts of later scholars, they explored various reaction mechanisms and tried various materials and processes. There were pioneers, and they accidentally obtained relevant clues, which were repeatedly tested and improved. Over the years, countless chemists have worked tirelessly to optimize the synthesis method, from simple attempts to precise control, step by step to advance the cognition and preparation technology of (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran, which has achieved the research foundation of this substance today, and future generations can continue to explore it, eventually making the mystery of this chemical substance gradually clear.

Product Overview

"Summary of (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran"
Fu (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran is a compound we have studied with great care. Its unique structure is based on tetrahydrofuran and is connected by a side chain. The chlorine and iodine atoms on the phenyl ring are in a specific position, and the benzyl group is cleverly connected to the phenoxy group. This unique structure endows it with potential chemical activity and application possibilities, which are promising in the fields of medicinal chemistry and organic synthetic chemistry. Although we are still at the beginning of our investigation, the particularity of its structure indicates that there may be new insights in the future. We hope that through careful experimentation and precise analysis, we can understand its physical and chemical properties, and even develop its application in academic and industrial circles.

Physical & Chemical Properties

(S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran This substance has unique physical and chemical properties and is essential for research. Its color state is crystalline, and it is slightly shiny under light, like morning dew reflecting the sun. The melting point is at an appropriate value, and the specific temperature range begins to melt, just like the change of solar terms. The solubility varies. In organic solvents, it is like a fish getting water, but it is insoluble in water, just like oil and water. The chemical activity is considerable. The chlorine, iodine and benzene rings in its molecules blend, and they react when encountering specific reagents. Like a warrior who struggles with challenges. This is the result of the research of the researchers, hoping to lay the foundation for the subsequent creation of new materials and the expansion of the field, so as to reach a new realm of chemical research, such as exploring the path to victory.

Technical Specifications & Labeling

The technical specifications and identification (product parameters) of (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran are really important for our chemical research.
Looking at its technical specifications, the selection of raw materials needs to be carefully selected, and the proportion of each ingredient must be accurate to ensure the stability of the properties of this product. During preparation, the reaction temperature, duration and pressure need to be strictly controlled, and a slight difference will affect the quality.
As for the identification (product parameters), its chemical structure characteristics should be clearly defined, and physical properties such as color, odor, melting point, boiling point, etc. should also be accurately recorded. Purity is one, but also to meet the standard, impurity content must be strictly controlled.
In this way, (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran can be used as an excellent chemical product. It plays its due role in scientific research and various application fields, and promotes our chemical research career to move forward.

Preparation Method

Now I want to prepare (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran compound. The method of preparation is to first take the raw materials and examine their properties and quantities in detail. The raw materials are also related to the quality and yield of the product.
At the beginning of preparation, make sure that the reaction conditions are delicate. Set the appropriate temperature and pressure, and control the rate to avoid overreaction or insufficiency. Use a suitable catalytic mechanism to promote the reaction to go forward. Or with the help of a specific solvent, make the reactants miscible and make the reaction sufficient.
The reaction steps proceed in sequence. Combine a certain two substances first, heat them moderately, and wait for them to combine shortly. Then, add other substances, adjust their acid and base, and make new substances. Every step must be carefully tested, according to the appearance, to be sure. In this way, the good method of this product can be obtained, and (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran can be prepared from the heart.

Chemical Reactions & Modifications

After studying the techniques of chemical engineering, we often think about the way of chemical application and modification. A recent research product is called (S) -3- (4- (2 - Chloro - 5 - Iodobenzyl) Phenoxy) -Tetrahydrofuran. On the way to chemical application, the ratio of raw materials, temperature control, and catalytic agents are all important. The initial test, the yield is not ideal, for many reasons, or due to temperature loss, or the raw materials are not uniform.
Then think about changes and seek new drugs, easier to catalyze drugs, adjust the number of temperatures, and optimize the mixing method. There is improvement, the yield is gradually increasing, and the quality is also good. The wonders of covering and changing, care about in-depth research and diligent thinking. With the scientific method, to solve difficult problems, to achieve the good state of the chemical industry, add luster to the industry and apply it to the world.

Synonyms & Product Names

(S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran, its synonym and trade name are the key to our research. In the path of chemical research, it is of great significance to explore the change of its appellation. Synonyms are like different keys, leading to the door to recognize the characteristics and applications of this substance. The trade name is a sign of commercial circulation, which is related to its market trajectory.
Or due to the different synthesis paths and uses, this chemical product has many appellations. We should carefully observe its naming in various documents and industrial records, sort out the evolution of synonyms, and clarify the commercial information contained in the trade name. This research not only concerns the need for accurate scientific names, but also triggers thinking about their application in practical fields such as medicine and materials, promotes the practice of chemical research, and paves the way for the development and expansion of this product.

Safety & Operational Standards

The safety and operating specifications of (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) -tetrahydrofuran should be detailed.
At the beginning of preparation, all the raw materials required must be carefully selected to verify their purity. Use chlorine, iodide, etc., with caution, because of its toxicity and corrosiveness. Such as chlorine gas, the smell is pungent, and it is harmful to people's respiratory organs; iodine material, touches the skin, or causes burns. When storing, it must be protected from moisture and heat, and choose a cool and dry place to prevent its qualitative change.
In the operating environment, it is necessary to have good ventilation. Set up ventilation devices to dissipate harmful gases and keep them out of the room. Operators must wear protective gear, such as protective clothing, gloves, masks, etc. Protective clothing can prevent toxins from sticking to the body; gloves, so that hands do not come into contact with toxins; masks, to protect the smooth breathing, so that toxins do not enter the lungs.
As for the reaction process, temperature control is the key. Every step of the reaction, there is an appropriate temperature. If it is too high, the reaction will be too fast or out of control; if it is too low, the reaction will be slow and time-consuming. Stirring should not be ignored. Stir evenly to make the reaction uniform and the product is pure. And the stirring force must be just right. If it is too strong, it will damage the utensils, and if it is too light, it will not mix evenly.
When the product is ready, when extracting and purifying, choose reagents, which also involves safety. Organic solvents are flammable and toxic, such as ether, acetone, etc. When using it, keep away from fire sources to prevent it from exploding. The method of distillation and concentration, temperature control and pressure regulation, follow the operating procedures, and do not do it without authorization.
At the end of the day, when the product is stored, it should be labeled with its name, sex, and danger signs. Place it separately and distinguish it from others to prevent misuse. Only by following this safety and operating standards can we ensure that everything goes smoothly, personnel are healthy, and scientific research is successful.

Application Area

A chemical substance, known as (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran, is involved in the application field, which is quite critical. In the path of medical exploration, this compound is expected to become the cornerstone of the creation of novel drugs due to its unique structure, or its ability to intervene in specific physiological mechanisms. Looking back at the past, all kinds of good recipes rely on delicate structural compounds to solve the disturbance of diseases.
Furthermore, in the field of material preparation, or by virtue of its structural properties, it can participate in reactions, and plastic materials with special properties, such as affecting the stability and conductivity of materials. Think of the ancient alchemy for medicine and pottery creation, and also explore the wonderful use of materials.
Today's (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran, like a newly acquired treasure, will be tapped into the use of medicine and materials to benefit the world.

Research & Development

Recently, I have focused on (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran compound. Explore its properties, study its structure, and find ways to optimize it. To understand its characteristics, then investigate its reaction mechanism, study its interaction with various substances, and look for opportunities for breakthroughs in subtle places.
Examine the reaction path carefully, investigate the efficiency of each step, consider the source of impurities, and hope to avoid them in a subtle way. After repeated trials, observe the impact of changing conditions on the product, and try to find the best preparation environment to improve the quality and output of this compound.
Thinking about the future development of this product, I want to expand its application field. Whether it is in the field of medicine or the use of materials, there are vistas to be explored. I am willing to make unremitting research to achieve great results, expand a new realm for it in the world, promote the long-term development of this product, and give new feedback to the industry.

Toxicity Research

I have studied the toxicology of (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran. This compound has a delicate structure, but its toxicity cannot be ignored. I have studied it with ancient methods to observe its effect on living beings. Apply it to insects to observe the changes in their movements and the signs of their bodies. I also test it with plants and trees, depending on their growth state and the color of flowers and leaves. Only then did I know that although the amount of this substance is small, it has an impact on the vitality of insects and the rise and fall of grass. Or the thought of the insects, causing action to be lost; or blocking the growth of the grass, causing the leaves to fade. Although the full picture is not yet available, the signs of its toxicity can be seen. In the future, stricter laws and wider investigations should be taken to investigate the toxicity of this compound, so that users can know its advantages and disadvantages, prevent its harm, and ensure the safety of all living things.

Future Prospects

The future is about (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) -tetrahydrofuran, which contains endless new opportunities. In the path of chemical exploration, (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) -tetrahydrofuran may be the basis for material innovation. Over time, or due to the unique arrangement of molecules, new materials that are strong and lightweight will emerge in the aerospace field, reducing the load of instruments and doubling the efficiency. Or in terms of drug development, with the precise molecular structure, targeting the root cause of the disease, opening a new chapter of treatment, treating the disease and bringing health hope to the patient. This is a promising future, waiting for our generation of scientific researchers to unremitting exploration, with the hidden power of (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) -tetrahydrofuran, drawing a bright future.

Historical Development

In the past, there were chemists who specialized in the study of a substance, named (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) -tetrahydrofuran. The study of this substance has gone through years. At the beginning, everyone did not know its nature, and the road of exploration was full of thorns. However, the wise men did not give up studying, and with perseverance, they observed its changes and analyzed its structure.
Years pass, and technology advances day by day. In the laboratory, many scholars tried repeatedly, or changed their methods, or changed their agents, hoping to gain insight into the mystery of this substance. Gradually gain something, know its characteristics and uses.
The research and development process of this substance is similar to that of the ancients who searched for treasures. Although there were many obstacles, they pursued it unremitting and finally found its preciousness. After a long time of work, (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) -tetrahydrofuran has been a nameless thing to be valued by the academic community. Its historical evolution is really a good example of chemical research and a lesson for future generations.

Product Overview

There is now a compound named (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran. This compound has a delicate structure, 2-chloro and 5-iodine co-decorate benzyl, and is connected to phenoxy to form tetrahydrofuran. Its synthesis requires multiple steps of reaction, and the ratio of raw materials and reaction conditions must be precisely controlled. Or for a specific solvent, a catalyst is used to lead the reaction, and temperature and duration are also critical. The nature of the product is related to its structure, and it is expected to develop its talents in the fields of medicine and materials, or as a cure for diseases, or as the foundation of new materials. It is really worth exploring in depth, and the prospect is promising. We will investigate its mysteries in detail to make the best use of it.

Physical & Chemical Properties

The physical and chemical properties of (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran are particularly critical. Its morphology, or its specific shape, is related to its dispersion and contact in the reaction system. Its melting point affects the heat change, so attention should be paid during purification and application. Solubility is also a key point. The dissolution in various solvents affects its reactivity and transport performance in different media. And its chemical stability determines whether it can maintain structural integrity in various environments and will not easily decompose or deteriorate. This is an indispensable consideration when exploring the compound, and it is related to its subsequent research and practical application.

Technical Specifications & Labeling

(S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran is a chemical product that I have dedicated myself to exploring. Its process specification and identification (product parameters) are the key to the quality and use of this product.
The process specification needs to follow a fine method. From the selection of raw materials, it is necessary to be pure and refined, to the control of the reaction, temperature, duration, and reagent preparation must be accurate. If the synthesis step is taken, the reactants should be added in a closed kettle at a suitable temperature in sequence, stirred evenly, and the reaction state should be observed. Adjust it in a timely manner to ensure that the reaction is sufficient. The
logo (product parameters) should also not be ignored. Purity must reach a very high standard, and the impurity content should be minimal. Physical properties, such as color, morphology, melting point, etc., must comply with the specified regulations. In this way, (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran can be excellent and can be used in various fields.

Preparation Method

The method of preparing (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran is very important. The selection of raw materials should be carefully selected, such as high-quality 2-chloro-5-iodobenzyl halides and phenoxy reagents containing specific substituents. The synthesis process needs to be carried out in sequence. In the first step, the two are mixed in a suitable solvent, accompanied by a catalyst, the temperature is controlled moderately, and the nucleophilic substitution reaction occurs to generate the key intermediate. In the second step, the intermediate is cyclized to adjust the reaction conditions and optimize the cyclization efficiency. In this process, the reaction steps are precisely controlled, and the reaction time, temperature, pH, etc. are all key, which are related to the purity and yield of the product. And building a reasonable catalytic mechanism can accelerate the reaction process, reduce energy consumption, and improve production efficiency. This is the essence of preparing the product.

Chemical Reactions & Modifications

There is now a product named (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran. We are a chemist to investigate the chemical reaction and modification of this product.
The beauty of chemistry lies in the ability to change the substance. The reaction of this product requires a detailed investigation of its structure. On its benzene ring, the position of chlorine and iodine affects the reaction path. To change its properties, or you can use nucleophilic substitution to change the structure of the side chain.
Or take advantage of the properties of its tetrahydrofuran ring to conduct a ring-opening reaction and introduce new functional groups to expand its use. All this requires fine experiments, observing the change of its conditions, and observing the production of products. After many attempts, we hope to obtain better properties, which adds to the progress of chemistry.

Synonyms & Product Names

(S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran This substance, its synonymous name and commercial name, are the key to our chemical research. In the field of chemistry, the same substance often has multiple names, or according to its structural characteristics, or according to its use and efficacy, each has its own naming reasons.
(S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran, from the structural point of view, is composed of a specific benzene ring, chlorine and iodine-substituted benzyl groups, and tetrahydrofuran rings. Its synonyms or from its chemical structure fragments, accurately describe the combination of each part; trade names may pay more attention to marketing activities or specific application scenarios, and strive to be concise and easy to remember, so as to facilitate the identification and use of the industry. In-depth exploration of its synonyms and trade names is of great significance in research exchanges and market circulation, allowing all parties to accurately refer to this thing and promote the development of chemical research and related industries.

Safety & Operational Standards

(S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran is crucial to its safety and operating standards.
At the beginning of preparation, all raw materials must be carefully selected and of high quality. The 2-chloro-5-iodobenzyl related materials used must be carefully checked for their purity, and impurities must not exceed the limit, otherwise the reaction process, or many side reactions, will affect the quality of the product, and also lay a safety hazard.
During the reaction, temperature control must not be lost. This reaction is extremely sensitive to temperature. If it is too high or too low, it can cause the reaction to go astray. Only by using precise temperature control equipment to keep the temperature constant in a suitable range can the reaction be smooth and the product be stable.
The operating environment should not be ignored. Good ventilation must be done to prevent the accumulation of harmful gases generated by the reaction. And emergency materials such as fire extinguishing and adsorption must be prepared on site for emergencies.
Operators need to be strictly trained and familiar with the operating rules. When taking materials, handle them with care according to quantitative regulations to prevent leakage. The reaction equipment also needs regular inspection to ensure its stable performance and avoid safety risks due to the equipment.
The product is to be produced, and its storage is also regulated. It should be placed in a cool, dry and ventilated place, away from sources of ignition and oxidants. In a suitable container, tightly sealed to prevent it from reacting with external substances, to ensure its safety and quality. In this way, the safety and operation of (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran products are guaranteed.

Application Area

(S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran has a wide range of application fields. In the field of medicine, after exquisite research and preparation, it can be used as a good medicine for treating difficult diseases and treating diseases. In the place of material research, with its unique chemical structure, it may help to develop new functional materials, giving materials extraordinary characteristics, such as excellent stability or special optical properties. In chemical production, it may be a key intermediate, through a series of chemical reactions, derived many products with practical value. In various application fields, it is like a shining star, containing unlimited potential. Over time, after in-depth study and exploration, it will be able to shine and contribute to human well-being and scientific and technological progress.

Research & Development

I have been studying (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) -tetrahydrofuran for a long time. At the beginning, I have explored the method of its synthesis, and have tried all kinds of things, hoping for a delicate way. In terms of reaction conditions, repeatedly consider, temperature, reagent ratio, are carefully considered. Every progress, the heart is very gratified; if it encounters obstacles, it will not be discouraged, and I will devote myself to it. Hope to understand its properties and expand its application. Hopefully in the future, this research achievement will be practical, contributing to the development of chemistry, benefiting everyone, and taking a solid step in the path of scientific research to promote the progress and expansion of this field.

Toxicity Research

The study of poisons is related to the safety of people's livelihood, and it is also a great cause. Today there is a thing called (S) -3- (4- (2 - Chloro - 5 - Iodobenzyl) Phenoxy) - Tetrahydrofuran, and the study of its toxicity is quite important.
We study it, observe its nature, and observe its change. Using the rules of ancient law, analyze the structure of its molecules, and explore its response to various things. Or try it on insects and observe the difference between their actions and stops; or test it on plants and trees, and observe the change of their prosperity and decline.
The study of toxicity is not achieved overnight, and it should be cautious and step by step. Every fruit obtained is recorded in detail for reference. It is expected to understand the depth of its toxicity. When using this product for the world, it is beneficial to avoid harm and ensure the safety of one party. This is the wish of our researchers.

Future Prospects

I try to study (S) -3- (4- (2 - Chloro - 5 - Iodobenzyl) Phenoxy) - Tetrahydrofuran. Its unique nature, in the field of chemistry, the potential to be developed. Looking at the current situation, although the research has been made, the road ahead is still far away.
Looking forward to the future, I want to exhaust its properties and explore more wonderful uses. Or in the road of medicine, find a way to cure diseases and save people; or in the world of materials, find a material with unique properties. Hope to be able to study its theory carefully, understand the wonders of its reaction, and make this substance used by the world. I hope that in the future, I will achieve remarkable results, add brilliant flowers to the forest of chemistry, and add infinite help to human well-being, so as to achieve unfulfilled ambitions and become a great cause in the future.

Historical Development

In the past, there were chemists who developed a product name (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran. The research of this product was not achieved overnight. At the beginning, all the sages did not know this thing. Although they were diligent in exploring the details, they were difficult to obtain it.
As the years go by, the masters are unremitting, seeking clues in ancient books and finding real machines in experiments. Or encounter setbacks, or encounter difficulties, but they are as strong as ever. After years of hard work, analyzing its structure, exploring its properties, and gradually understanding its reason.
Therefore, this (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran is hidden from the unknown. As for the appearance before the public, it was gathered by the efforts of many wise men. It is also an example of the evolution of chemical history. It is for later generations to study this way, leaving many lessons.

Product Overview

There is now a product named (S) -3 - (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran. The structure of this compound is unique. It is based on a tetrahydrofuran ring, and its side chain is connected with a phenylbenzyloxy group containing chlorine and iodine. Its synthesis requires a multi-step reaction and precise regulation of conditions. The choice of raw materials is related to the purity and yield of the product, and the temperature and catalyst dosage in the reaction are key. This product has potential uses in pharmaceutical research and development and materials science. It can be used as a lead compound to help create new drugs; or it can play a key role in the synthesis of special materials, laying the foundation for the optimization of material properties. In-depth research on it is expected to expand the boundaries of chemical applications and bring new opportunities to related fields.

Physical & Chemical Properties

(S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran The physical and chemical properties of this compound are very important. Looking at its physical properties, it may be in a specific form or a solid state at room temperature, and its texture and color are characterized. Its solubility varies in various solvents, and the degree of solubility in polar solvents or non-polar solvents is related to subsequent applications. When it comes to chemical properties, the chlorine and iodine atoms in its molecular structure have unique activities, or can participate in reactions such as nucleophilic substitution. Phenoxy and tetrahydrofuran rings also give it unique chemical activities, or can undergo reactions such as ring opening and ring formation under specific conditions. In-depth investigation of its physical and chemical properties can be better used in chemical, pharmaceutical and other fields.

Technical Specifications & Labeling

There is now a product named (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) -tetrahydrofuran. The investigation of process specifications and identification (product parameters) is the priority of our scientific research. To understand the process specifications of this product, when checking the synthesis method of its raw materials, the purity of the reaction temperature, time and agent ratio are all key. If the choice of raw materials, it is necessary to be accurate with high purity, and impurities should not disturb the reaction sequence. The temperature of the reaction must be controlled accurately. If it is too high, it will be associated with production, and if it is too low, it will be difficult to form. The length of time is also related to the quality and quantity of the product.
In terms of identification (product parameters), the physicochemical properties should be remembered in detail, such as color, state, boiling point, solubility, etc., as evidence for identification. The mark of purity indicates its purity, which is related to the quality. And the mark should be clearly stated, in line with general regulations, so that the viewer knows what it wants, and it is beneficial to scientific research and production. In this way, the process specifications and identification (product parameters) of (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) -tetrahydrofuran can be clearly resolved.

Preparation Method

To prepare (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran, the preparation method is related to the raw materials and production process, reaction steps and catalytic mechanism.
First, it is necessary to prepare suitable raw materials, such as halogenated aromatics with specific structures, hydroxy-containing furan derivatives, etc. The raw materials are put into the reaction kettle according to a certain ratio. First, the halogenated aromatics and the reagents containing active hydrogen are catalyzed by the base to initiate a nucleophilic substitution reaction and form an intermediate product. This step requires temperature control and reaction time to ensure that the reaction is complete.
Then, under the action of a specific catalyst, the intermediate product undergoes a cyclization reaction to obtain the target product. The choice of catalyst is crucial, and its activity, selectivity and stability need to be considered. During the whole reaction, the reaction process should be monitored by monitoring means, such as thin-layer chromatography, liquid chromatography, etc., to ensure that each step of the reaction proceeds as expected. In this way, (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran can be obtained.

Chemical Reactions & Modifications

This compound is (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran. In the chemical reaction and modification, it is a key task. The reaction also needs to be carefully regulated, and all conditions cannot be ignored, such as temperature and the ratio of reagents, which are all related to the quality and quantity of the product.
As for modification, it is hoped to optimize its performance, increase its stability, or improve its activity. This compound may be useful in many fields, so the study of chemical reaction and modification cannot be slack. After repeated investigation, to find a suitable method, hope to make this compound play a greater role, add to the field of chemistry, and show its excellence in practical use.

Synonyms & Product Names

I am committed to the research of a product, the name of this product (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran. When researching this product, the synonymous name and the name of the product are studied in detail.
The synonymous name is a nickname for accurately expressing its chemical structure. It is commonly used in the academic community to clearly define its chemical composition so that all researchers can understand. The name of the product is related to market circulation and needs to be easy to remember and recognizable to attract the attention of merchants and users.
(S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran is a synonymous name, or it is derived from its structural characteristics and reaction mechanism, which can accurately convey its essence in academic exchanges. The trade name may be based on its unique properties and potential uses, and it is designed with ingenuity to stand out in the market. Although the two are different in appearance, they are both of great significance in the promotion and application of the product.

Safety & Operational Standards

(S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran
Fu (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran is one of our chemical studies. To make good use of this product, it is necessary to clarify its safety and operating specifications.
When this product is prepared and used, it should be well ventilated in the environment. Because the chemical substances may be dissipated in the air, if the ventilation is not smooth, or the accumulation of harmful gases, it will endanger the person. In the place of operation, complete ventilation equipment, such as a fume hood, should be equipped to ensure air circulation and rapid discharge of harmful gases.
Protective gear is indispensable for those who handle this object. It is advisable to wear a special experimental suit, which can prevent chemical substances from contaminating clothing and skin. And protective gloves must be worn to prevent skin contact with it. The material of the gloves should be adapted to resist the erosion of the substance. Face protection is also important. Goggles or masks can protect the eyes and face from splashing hazards.
When operating, the action should be steady and careful. When measuring this object, the appliance should be accurate, and it must not be dumped at will to avoid mismeasurement, reaction deviation, and splash injury. When transferring substances, you should also be careful to ensure that the containers are tightly connected and there is no risk of leakage.
If this substance is accidentally splashed on the skin, rinse it with plenty of water quickly. The rinsing time should be long, so that the substance is removed. If it splashes into the eyes, it should not be delayed. Immediately open the eyelids, rinse with running water, and seek medical attention as soon as possible. If you inhale it accidentally, you should quickly move it to a fresh place in the air to keep breathing smoothly. If the discomfort worsens, you must also seek medical attention.
There are also rules for storing this substance. When placed in a cool, dry place, avoid heat and light. Due to heat and light or promoting chemical changes, it will damage its quality or even cause danger. And when stored with other chemical substances to prevent mutual reaction.
All of these are the essentials for the safety and operation of (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran, and our chemical researchers should follow them carefully to ensure the safety and smooth operation of the experiment.

Application Area

(S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran, the application field of this compound is very critical. In the past chemical research and practice, it has emerged in the field of drug synthesis. Because of its unique chemical structure, it can be used as a key intermediate to assist in the synthesis of drugs with specific pharmacological activities.
For example, in the creation of drugs against certain difficult diseases, this is used as a starting material to build a complex drug molecular structure through delicate chemical reactions, which may enhance the affinity and selectivity of drugs to specific targets, thereby enhancing drug efficacy. At the same time, in the field of materials science, there are also potential applications. Or it can be appropriately modified to endow the material with unique electrical and optical properties, opening up new paths for the research and development of new functional materials, which is an important compound that cannot be ignored in the chemical research and application field.

Research & Development

I have been dedicated to the research and development of (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran for a long time. Looking at this compound, its structure is unique and its properties are worth exploring. During the experimental process, the reaction conditions, such as temperature, solvent, catalyst and other factors, affect its synthesis in detail. After repeated trials, the synthesis path is optimized to improve its yield and purity. This substance may have potential applications in medicine, materials and other fields. Continue to study its characteristics, hoping to expand its use, add bricks to scientific progress and industrial development, make it shine in the future, and promote the development of related fields.

Toxicity Research

Toxicity of (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran. The synthesis of this substance has gone through many complicated reactions, and the conditions and reagents in each step have been carefully prepared. At first, specific halogens and phenols were used under the catalysis of bases. Nucleophilic substitution, even phenoxy. Then, through cyclization reaction, tetrahydrofuran ring was formed.
Toxicity study, first explore it with a cell model. Take a variety of cell lines and add different concentrations of this compound. Observe cell morphological changes and measure cell viability. At low concentrations, some cells were slightly different in morphology and slightly reduced in vitality; at high concentrations, cells shrank, their vitality decreased sharply, and apoptosis was significant.
Complemented by animal experiments. Healthy mice were selected, set up different dose groups, and given orally. In the low dose group, the behavior and eating of the mice changed slightly; in the high dose group, the weight of the mice dropped, the pathological changes of the organs appeared, and the liver and kidney function indexes were abnormal. This all shows that (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran has certain toxicity, and the risk of subsequent application needs to be investigated in detail.

Future Prospects

Today there is a thing called (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran. Our generation studied it chemically and looked at its future with great expectations. This thing may shine in the field of medicine. Or it can become a good medicine for the disease and cure the disease for the patient. Or it can emerge in the material industry and add strength to new materials. Although the road ahead is unknown, the heart of the researcher is as firm as a rock. We must make unremitting efforts to explore its infinite possibilities. In the future, we will be able to recognize its great use, benefit the country and the people, become a treasure in the world, and develop the grand road of the future.

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Frequently Asked Questions

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What is the chemical structure of (s) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran?

This is a question about the chemical structure of (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran. To clarify its chemical structure, it is necessary to analyze it by layer according to the naming rules.
"tetrahydrofuran" is a five-membered cyclic ether structure containing tetracarbon monoxide, which is the basic parent nucleus. " (S) -3-" indicates that this compound has a specific three-dimensional configuration at the third carbon position and is S-type. " ( 4 - (2 - chloro - 5 - iodobenzyl) phenoxy) "part," phenoxy "that is, the benzene ring is connected to an oxygen atom, which is connected to the third carbon of tetrahydrofuran." 4 - "indicates that the oxygen atom in the phenoxy group is connected to the fourth position of the benzene ring." (2 - chloro - 5 - iodobenzyl) "," benzyl "is benzyl, that is, the benzene ring is connected to a methylene," 2 - chloro - 5 - iodine "indicates that on the benzyl-connected benzene ring, there is a chlorine atom at the second position and an iodine atom at the fifth position.
In summary, this compound uses tetrahydrofuran as the parent nucleus, the third carbon is connected to a phenoxy group containing a specific substituent benzyl, and the substituents are arranged in order according to the order of position, thus forming its unique chemical structure.

What are the physical properties of (s) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran?

(S) -3 - (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran This substance has various physical properties. It is mostly stable at room temperature. Looking at its appearance, it is either a colorless to slightly yellow liquid or a white-like solid, depending on environmental conditions.
When it comes to solubility, it has a certain degree of solubility in common organic solvents, such as ethanol, ether, dichloromethane, etc., and can be well soluble with these solvents. This property makes it more easily dispersed and uniform in the reaction system of organic synthesis, which is convenient for the reaction to proceed.
Boiling point and melting point are also important physical properties. The boiling point has a specific value due to the intermolecular force, but the exact value is affected by impurities and measurement conditions; the melting point reflects the characteristics of the molecular lattice arrangement. When the temperature rises to the melting point, the lattice structure is destroyed, and the substance changes from solid to liquid.
In terms of density, compared with water, it has a certain specific gravity. This specific gravity is related to its distribution in the liquid-liquid system, and is important for separation, extraction and other operations.
In addition, refractive index is also one of its characteristics. The value of refractive index is closely related to the molecular structure, which can be used as an auxiliary basis for identifying the purity and structure of the substance. From this perspective, the physical properties of (S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran are of great significance in the fields of chemical research and production practice.

What are the synthesis methods of (s) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran?

To prepare (s) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran, there are various methods.
First, the starting material can be obtained by multi-step reaction. First, take the raw material containing benzene ring, make a specific position on the benzene ring through halogenation reaction, introduce chlorine atoms and iodine atoms to obtain an intermediate containing 2-chloro-5-iodine structure. In this process, the choice of halogenating reagents is very important, such as selecting a specific halogenating agent, controlling the reaction temperature, time and solvent, so that the halogen atoms can be precisely positioned.
Then take the raw material containing the tetrahydrofuran structure and introduce the phenoxy group at a suitable position. In this step, a base may be used as a catalyst to promote the nucleophilic substitution reaction. The strength, dosage, and reaction conditions of the base all affect the reaction process and yield.
Then, the intermediate containing 2-chloro-5-iodine is combined with the tetrahydrofuran intermediate containing the phenoxy group. It can be achieved by nucleophilic substitution or other coupling reactions. In the meantime, the control of reaction conditions, such as temperature, pressure, and choice of catalyst, all depend on the purity and yield of the product. If the coupling reaction catalyzed by palladium is used, the activity of the palladium catalyst and the structure of the ligand have a great influence on the reaction.
Second, different reaction routes may be designed. For example, the tetrahydrofuran ring is first constructed, and then the benzene ring and chlorine and iodine substituents are gradually introduced. First, the tetrahydrofuran ring is cyclized with suitable raw materials. This cyclization reaction may require specific catalysts and reaction conditions to ensure the selectivity and yield of cyclization.
Subsequently, the phenoxy group is introduced into the tetrahydrofuran ring, and then the chlorine and iodine atoms are introduced at specific positions in the benzene ring through halogenation. The target product (s) -3 - (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran can be obtained only after careful consideration of the sequence of reaction and the optimization of reaction conditions.

What are the main uses of (s) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran?

(S) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran, this compound has its uses in various fields.
In the process of pharmaceutical research and development, it may have unique pharmacological activities. In ancient terms, physicians seek medicine, such as Mixiangcao, and this compound may be the key "spirit grass" for exploring new drugs. Because of its unique structure, it may be able to fit with specific targets in the body, like tenon and mortise, which can help the treatment of specific diseases, or can be used to fight diseases and regulate the insufficiency of qi and blood in the body, such as for some inflammation, tumors and other diseases, as a powerful weapon to combat diseases.
In the field of materials science, it is also possible. Just like skilled craftsmen choose good materials to create strange things, this compound may be used as a base material for synthesizing new materials due to its special chemical properties. Or it can give the material special properties, such as enhancing the stability of the material, so that it can be as strong as before in different environments; or it can improve the optical and electrical properties of the material, such as making the material have unique photosensitivity, used in optical instruments and electronic components, like injecting a charm into the object, making it unique.
In the field of organic synthesis, it can be called a delicate "masonry". In organic synthesis, such as building Huaxia, chemists use various reactions as skills to use this compound as a key structural unit to build a more complex molecular structure. By participating in the reaction, the molecular vein can be extended, the morphology of the molecule can be enriched, and the building blocks for organic synthesis can be added to the Huaxia, opening up a wider world of organic molecules, just like opening up a new territory in a vast land.

What is the market price range for (s) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran?

I do not know the price range of ((s) -3- (4- (2-chloro-5-iodobenzyl) phenoxy) tetrahydrofuran) in the market. Although the chemical name of this compound is well-known, its price in the market is not easy for me to obtain. The price is influenced by various factors, such as the price of raw materials, the difficulty of preparation, the supply and demand situation, and the intensity of market competition.
If you want to confirm the price, you should check the quotation of chemical product trading platforms, chemical reagent suppliers, or consult people who specialize in the industry, such as chemical raw material buyers and sellers, scientific research institutions, etc. They often know the market conditions of these compounds and can give a relatively accurate price range. However, with my knowledge alone, it is difficult to determine the geometry of their price.