As a leading (+-)-1-[4-(4-Chlorophenyl)-2-[(2,6-dichlorophenyl)thio]butyl]-1H-imidazole supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.
What is the chemical structure of this product (±) -1- [4- (4-chlorophenyl) -2- [ (2,6-dichlorophenyl) thio] butyl] -1H-imidazole?
This is a problem related to the structural description of an organic compound. The name of the compound is (±) -1 - [4- (4-fluorophenyl) -2- [ (2,6-difluorophenyl) carbonyl] butyl] -1H-indole. To clarify its chemical structure, let me tell you in detail.
The core of this compound is a 1H-indole structure, which is a nitrogen-containing heterocyclic aromatic structure. It is formed by fusing a benzene ring with a pyrrole ring, and the 1 position of the indole ring is connected to a long chain. In this long chain, a butyl fragment is included. The second position of the butyl fragment is connected with a carbonyl group, and the other side of the carbonyl group is connected with a 2,6-difluorophenyl group. This difluorophenyl group has a fluorine atom substitution at the 2 and 6 positions. The fourth position of the butyl fragment is connected with a 4-fluorophenyl group, and this 4-fluorophenyl group has a fluorine atom substitution at the 4 position. It should be noted that (±) before the compound name indicates that this compound is a racemic, that is, it contains an equal amount of enantiomers, which are mirror images of each other but cannot overlap.
In this way, the chemical structure of (±) -1 - [4 - (4 - fluorophenyl) -2 - [ (2,6 - difluorophenyl) carbonyl] butyl] -1H - indole is clearly presented. The diverse substituents in its structure endow the compound with unique physical and chemical properties, which may be of great significance in the fields of organic synthesis and medicinal chemistry.
What is the main use of this product (±) -1- [4- (4-chlorophenyl) -2- [ (2,6-dichlorophenyl) thio] butyl] -1H-imidazole?
This is a compound named (±) -1 - [4- (4-fluorophenyl) -2- [ (2,6-difluorophenyl) carbonyl] butyl] -1H-indole. Its main uses are quite extensive, in the field of medicine, it can be used as a key intermediate for drug research and development. Due to its unique chemical structure, it can interact with specific biological targets, assist in the synthesis of specific biologically active drugs, or have anti-tumor, anti-viral, and neurological functions.
In the field of organic synthesis chemistry, this compound is an important synthetic building block. With its structural properties, chemists can use various organic reactions to modify and derive them to synthesize organic compounds with more complex structures and more specific functions, providing key raw materials and intermediates for materials science, total synthesis of natural products and other fields.
For example, in the process of developing innovative drugs, researchers use it as a basis for structural optimization and modification, hoping to obtain drug molecules with higher activity and fewer side effects. In the synthesis of organic materials, it can also be cleverly designed and reacted to integrate it into the material structure, giving the material unique optical, electrical and other properties. In short, this compound plays a pivotal role in chemistry and related fields, laying the foundation for many research and applications.
What is the market outlook for this product (±) -1- [4- (4-chlorophenyl) -2- [ (2,6-dichlorophenyl) thio] butyl] -1H-imidazole?
Today, there is a product named (±) -1 - [4- (4-chlorobenzyl) -2 - [ (2,6-dichlorobenzyl) carbonyl] butyl] -1H-indole. I would like to know what its market prospects are.
Watch this product in the field of medicine, or its potential. In today's world, there are many diseases, and doctors seek new agents to treat various diseases. This (±) -1 - [4- (4-chlorobenzyl) -2 - [ (2,6-dichlorobenzyl) carbonyl] butyl] -1H-indole, if it has a unique pharmacology, can target a disease, precise force, or can become a good medicine. And the current research and development of new drugs, looking for such complex structures, in order to explore the unknown efficacy. If it is proved to be effective and safe after rigorous tests, it must be competed by pharmaceutical companies, and it is expected to be profitable to enter the market.
In the chemical industry, there are also some things to be traced. Its structure is special, or it is a key raw material for synthesizing other substances. The way of chemical industry is based on innovation. New raw materials often open up new synthesis paths and expand product categories. If this product can add new branches to chemical synthesis, chemical manufacturers must pay attention to it, and the market demand may grow.
However, its prospects are not entirely cloudy. New drug research and development involves many barriers, high trial costs, and long cycles. If clinical trials do not meet expectations, the upfront investment will be in vain. Chemical applications also need to consider cost and environmental protection. If this product is synthesized, the cost will be too high, or pollution will be generated. Even if it is useful, it will be difficult to use it in the market.
In summary, (±) -1 - [4 - (4 - chlorobenzyl) -2 - [ (2,6 - dichlorobenzyl) carbonyl] butyl] -1H - indole market prospects, opportunities and challenges coexist. If we can make good use of its long and solve its problems, we may be able to gain a place in the market.
What are the precautions for the synthesis of this product (±) -1- [4- (4-chlorophenyl) -2- [ (2,6-dichlorophenyl) thio] butyl] -1H-imidazole?
This is the preparation of\ (\ pm -1 - [4 - (4 - fluorophenyl) -2 - [ (2,6 - difluorophenyl) carbonyl] butyl] -1H - pyrazole\), need to pay attention to many key matters.
The starting material must be carefully selected and its purity must be strictly controlled. Impure starting materials are like inferior seeds sown in good soil, which will inevitably lead to wrong reactions and impure products. Therefore, the starting material needs to be tested multiple times to ensure that it meets the standards before it can be put into the reaction.
The control of the reaction conditions is like riding a horse on a dangerous road, and there is no room for a little difference. Temperature, pressure, reaction time, etc. are all key reins. If the temperature is too high, the reaction may be like a runaway horse, and overreaction will cause product decomposition or side reactions; if the temperature is too low, the reaction will be slow and take a long time. Improper pressure may make the reaction unable to proceed according to the expected path. Only by precisely adjusting the reaction time can the reaction be stopped and the pure product can be harvested.
The choice of catalyst is like finding a good guide for the reaction. A suitable catalyst can speed up the reaction rate and reduce the reaction threshold. However, if the wrong choice is made, it will not only fail to promote, but also become a fetter. The amount of catalyst also needs to be carefully weighed, and more will be wasted or lead to side reactions, and less will be ineffective in catalysis.
The reaction solvent, just like the stage of the reaction, has a profound impact on the reaction process and product purity. It is necessary to choose the one with good compatibility with the reactants and products, and there is no interference with the reaction. If the solvent is not selected properly, the reactants may not be able to be fully contacted, and the reaction cannot be carried out smoothly.
Separation and purification steps are the key to obtaining a pure product. After the product is generated, it is often wrapped in impurities, and the impurities need to be removed one by one by suitable separation methods, such as distillation, extraction, recrystallization, etc. This process requires patience and meticulousness, just like panning for gold in sand. A little carelessness can lead to product loss or poor purity.
The standardization of experimental operation is the criterion throughout. From material weighing, instrument assembly to reaction monitoring, it is necessary to follow strict procedures. Any slight negligence can lead to a big mistake and make the previous efforts go to waste. Only by paying attention to everything can the synthesis of this product proceed smoothly and achieve the desired results.
What are the Quality Standards for this product (±) -1- [4- (4-chlorophenyl) -2- [ (2,6-dichlorophenyl) thio] butyl] -1H-imidazole?
The names involved in this product are complicated and seem to be related to chemical substances. This product is named (±) -1 - [4 - (4 - chlorobenzyl) - 2 - [ (2,6 - dichlorobenzyl) carbonyl] butyl] - 1H - indole. To clarify its relevant Quality Standards, let me analyze it in detail.
In the Quality Standards of chemical products, purity is the key factor. The purity of this product, when it is extremely high and accurately determined, must be strictly controlled for impurity content. Because of its purity, it is related to product performance and application effect. If the purity is insufficient, it is easy to cause frequent side reactions in subsequent reactions or product use, which will affect the final effect.
Furthermore, the limit of relevant substances is also an important standard. All kinds of related impurities in the product, such as starting material residues, intermediates and degradation products, should have clear limit requirements. This is a necessary measure to ensure the stability and safety of the product. If the relevant substances exceed the standard, or cause toxic reactions, endanger the health of users, or affect the stability and shelf life of the product.
Melting point is also one of the considerations of Quality Standards. The exact melting point range can reflect the purity and crystallization of the product. If the melting point deviates from the established range, or implies that the product has impurities interfering with crystallization, or the crystal form changes, it will affect the properties of the product.
In addition, drying weight loss cannot be ignored. The product contains too much moisture, which may affect its chemical stability, or even change the physical shape and properties of the product. Therefore, it is necessary to strictly control drying weight loss to ensure product quality.
Appearance is also part of Quality Standards. This product should have a specific color and shape. If the appearance is abnormal, or it suggests that there is a deviation in the production process, or the product has been contaminated and deteriorated.
In summary, (±) -1 - [4 - (4 - chlorobenzyl) - 2 - [ (2,6 - dichlorobenzyl) carbonyl] butyl] - 1H - The Quality Standard of indole covers many aspects such as purity, related substance limit, melting point, drying weight loss and appearance. All aspects are strictly controlled to ensure high quality products and meet the application needs of different fields.
