2- {4- [ (2-butyl-1-benzofuran-3-yl) carbonyl] -2,6-diiodophenoxy} -N, N-diethylethanaminium What is the chemical structure of Chloride

This substance is called 2- {4- [ (2-butyl-1-benzofuran-3-yl) carbonyl] -2,6-diiodophenoxy} -N, N-diethylethylammonium chloride. To know its chemical structure, let me tell you in detail.

Looking at the main part of the ammonium salt structure, the nitrogen atom is connected with three groups, namely two ethyl groups and an ethoxy chain containing complex substituents. The oxygen atom on this ethoxy chain is connected to a benzene ring. There is a carbonyl group at position 4 on the benzene ring, which is in turn connected to 2-butyl-1-benzofuran-3-yl. The so-called 2-butyl-1-benzofuran-3-yl, that is, the benzofuran ring is connected to a butyl group at position 2, and the position 3 is connected to the above-mentioned carbonyl group. And the positions 2 and 6 of the benzene ring are each connected with an iodine atom. The whole cation part is structured like this, and then combined with the chloride ion to form this chloride.

Its structure is complex, and each group is connected to each other to form this unique chemical structure. In this structure, there are heterocyclic structures such as benzofuran that endow it with specific chemical activities, and substituents such as iodine atoms and butyl groups that affect its physical and chemical properties. The ammonium salt part gives the compound some characteristics of salt, and the chloride ion and its equilibrium charge jointly determine the performance of this substance in chemical reactions and physical states.

2- {4- [ (2-butyl-1-benzofuran-3-yl) carbonyl] -2,6-diiodophenoxy} -N, N-diethylethanaminium What are the main uses of Chloride

2-% {4- [ (2-butyl-1-benzofuran-3-yl) carbonyl] -2,6-diiodophenoxy} -N, N -diethylethanaminium Chloride, this is an organic compound. It has a wide range of uses and is often used as an intermediary in organic synthesis in the field of scientific research. Organic synthesis is like building a delicate pavilion, and this compound is an indispensable component, helping chemists to build more complex and delicate organic molecular structures.

It is also of great value in the field of drug development. It may contribute to the generation of lead compounds, just like opening a window of possibility for the exploration of new drugs. Lead compounds are like the vanguard of the drug development journey. After optimization and transformation, they are expected to be transformed into medicines that cure diseases and save lives.

Furthermore, in the field of materials science, its unique chemical structure may endow materials with different properties. For example, it may improve the stability, conductivity and other properties of materials, just like injecting magic into materials, making them suitable for more special scenarios.

With its unique chemical structure, this compound plays an important role in many important fields such as scientific research, drug development and materials science, just like a silent hero behind the scenes, promoting the progress and development of various fields.

2- {4- [ (2-butyl-1-benzofuran-3-yl) carbonyl] -2,6-diiodophenoxy} -N, N-diethylethanaminium What is the synthesis method of Chloride

To prepare 2 - {4 - [ (2 - butyl - 1 - benzofuran - 3 - yl) carbonyl] -2, 6 - diiodophenoxy} -N, N - diethylethylammonium chloride, can be carried out according to the following ancient method.

First take 2 - butyl - 1 - benzofuran - 3 - carboxylic acid as the starting material, and place it in a reaction kettle with a suitable chlorination reagent, such as sulfuryl chloride, and heat it to promote the formation of acid chloride. In this step, you need to pay attention to the control of temperature, and do not cause side reactions to occur due to overheating. After the reaction is completed, the acid chloride product is purified by vacuum distillation.

Take 2,6-diiodo- 4-hydroxybenzaldehyde at a time, dissolve it in a suitable organic solvent, such as dichloromethane, add an appropriate amount of base, such as triethylamine, and stir well. Slowly add the pre-prepared acid chloride, control the temperature at a low temperature during the reaction, about 0 ° C to 5 ° C, and continue to stir to make the reaction sufficient. After this reaction, 4- [ (2-butyl-1-benzofuran-3-yl) carbonyl] -2,6-diiodobenzaldehyde can be obtained.

Compound the above product with a reducing agent, such as sodium borohydride, in an alcohol solvent to obtain 4- [ (2-butyl-1-benzofuran-3-yl) carbonyl] -2, 6 -diiodobenzyl alcohol. Then it is converted to 4- [ (2-butyl-1-benzofuran-3-yl) carbonyl] -2, 6 -diiodobenzyl halide with a suitable halogenating agent, such as phosphorus tribromide.

Take another N, N -diethylethanolamine, co-place it in the reaction system with the pre-prepared halide, add alkali catalysis, such as potassium carbonate, and react at an appropriate temperature, such as 50 ° C to 60 ° C. After the reaction is completed, purified by column chromatography or recrystallization, 2 - {4- [ (2-butyl-1-benzofuran-3-yl) carbonyl] -2,6-diiodophenoxy} -N, N -diethylethylamine can be obtained. At the end of

, the amide is reacted with a chlorination reagent, such as hydrochloric acid, in a solvent. After evaporation, crystallization, etc., the final product is 2 - {4- [ (2-butyl-1-benzofuran-3-yl) carbonyl] -2, 6 -diiodophenoxy} -N, N -diethylethylammonium chloride. The whole synthesis process requires fine operation at each step, and attention to the control of reaction conditions can be paid to obtain a pure product.

2- {4- [ (2-butyl-1-benzofuran-3-yl) carbonyl] -2,6-diiodophenoxy} -N, N-diethylethanaminium What are the safety and toxicity of Chloride

2-% {4- [ (2-butyl-1-benzofuran-3-yl) carbonyl] -2,6-diiodophenoxy} -N, N -diethylethanaminium Chloride, this is a complex organic compound. Regarding its safety and toxicity, let me talk about it in detail.

First of all, safety. Under normal experimental operating conditions, if good laboratory practices are followed and appropriate protective measures are taken, such as wearing goggles, gloves, and operating in a well-ventilated place, this compound may be relatively safe to handle. However, its behavior and potential effects in the environment still need to be investigated in detail. The characteristics of its chemical structure may cause it to degrade slowly in the environment or accumulate in organisms, which cannot be ignored when considering safety.

As for toxicity, the chemical structure of this compound contains iodine, nitrogen and other elements, or suggests that it has certain biological activities. The presence of iodine atoms may affect its interaction with biological macromolecules, and the amine structure where nitrogen atoms are located may react with acidic groups in organisms under certain circumstances. From previous studies of similar structural compounds, it is inferred that it may affect the cells and tissues of organisms. It may interfere with the metabolic process of cells, affect the permeability of cell membranes, and even inhibit the activity of specific enzymes. If accidentally ingested, inhaled or absorbed through the skin, it may cause different degrees of health problems. In light cases, it may cause skin and eye irritation, and in severe cases, it may damage the respiratory system and nervous system, affecting the normal physiological functions of the body.

In summary, although there is no detailed and conclusive safety and toxicity study data for this compound, due to its chemical structure and the characteristics of similar compounds, it is necessary to exercise caution and conduct in-depth safety and toxicity studies to fully understand its potential effects on humans and the environment.

2- {4- [ (2-butyl-1-benzofuran-3-yl) carbonyl] -2,6-diiodophenoxy} -N, N-diethylethanaminium What is the market outlook for Chloride

Today, there are 2- {4- [ (2-butyl-1-benzofuran-3-yl) carbonyl] -2,6-diiodophenoxy} -N, N-diethylethylammonium chloride. The market prospect of this substance is of great concern to everyone.

In the current pharmaceutical and chemical market, various new compounds are emerging one after another, and the competition is very fierce. However, this compound has a unique molecular structure, or contains special chemical properties and biological activities. In the field of drug development, it may become a lead compound with extraordinary potential. If its pharmacological mechanism can be accurately analyzed, it is expected to develop innovative drugs for specific diseases, which is of great significance to relieve the pain of patients and improve the medical level, so it may be able to win a place in the pharmaceutical market.

In the field of chemical materials, due to its unique structure, it may endow the material with novel properties. For example, in the modification of polymer materials, it may enhance the stability and plasticity of the material. If its effect is verified by in-depth research and practice, it is also possible to expand in the chemical materials market.

However, its market prospect also has challenges. The process of synthesizing this compound may be complex and expensive. If the process cannot be optimized to reduce costs, large-scale production and marketing activities will be hindered. Furthermore, the market acceptance of new compounds requires time and strict safety and efficacy evaluations. Only by overcoming various difficulties can we open up broad market prospects and shine in the fields of medicine and chemical industry.