What is the chemical structure of Methyl N- (methoxycarbonylmethyl) -3-sulfamoyl-2-thiophenecarboxylate?

This "Methyl+N-%28methoxycarbonylmethyl%29-3-sulfamoyl-2-thiophenecarboxylate" is the name of organic chemistry. Its chemical structure is described in the ancient classical style of "Tiangong Kaiwu", as follows.

This compound is based on a thiophene ring, such as the cornerstone of a building. At the second position of the thiophene ring, the carboxyl group is connected to the methyl ester group, just like the cornerstone, to form a specific structural unit. The connection of this methyl ester group determines part of its chemistry and spatial steric resistance.

The three-position thiophene ring is connected to a sulfonamido group and a sulfonamido group, which also has a great impact on the properties of the whole. Its nitrogen atom is connected to a group called N- (methoxycarbonyl methyl), which is like a lateral branch and is attached to the main structure. In the methoxycarbonyl methyl group, the methoxyl group is connected to the carbonyl group, the carbonyl group is connected to the methylene group, and the methylene group is connected to the nitrogen atom.

In this way, the groups are connected in a specific order to build the chemical structure of this "Methyl+N-%28methoxycarbonylmethyl%29-3-sulfamoyl-2-thiophenecarboxylate", and the parts interact, giving this compound its unique chemical and physical properties.

What are the main uses of Methyl N- (methoxycarbonylmethyl) -3-sulfamoyl-2-thiophenecarboxylate?

Methyl N- (methoxycarbonylmethyl) -3-sulfamoyl-2-thiophenecarboxylate is an organic compound. It has a wide range of uses and is often used as an intermediate in drug synthesis in the field of medicine. Drug developers can create new drugs with specific pharmacological activities by modifying and modifying their chemical structures. For example, it can be used to develop antibacterial and anti-inflammatory drugs. By precisely regulating its structure, it can enhance the effect on specific pathogens or inflammatory targets and improve the therapeutic effect.

In the field of materials science, this compound may be involved in the preparation of functional materials. For example, due to its unique chemical properties, it can be used to synthesize polymer materials with special electrical and optical properties. The special functional groups contained in it may endow materials with unique electrical conductivity, luminescence and other characteristics, providing possibility for the research and development of new electronic devices and optical equipment.

In agricultural chemistry, it may also become a key raw material for the creation of pesticides. After rational design and transformation, high-efficiency and low-toxicity pesticides, fungicides and other pesticide products may be developed, helping to improve crop yield and quality, and ensuring the sustainable development of agricultural production. In short, Methyl N- (methoxycarbonylmethyl) -3-sulfamoyl-2-thiophenecarboxylate has potential application value in many fields, providing an important material basis for technological innovation and development in various fields.

What is the synthesis method of Methyl N- (methoxycarbonylmethyl) -3-sulfamoyl-2-thiophenecarboxylate?

The method for preparing methyl-N- (methoxycarbonyl methyl) -3-aminosulfonyl-2-thiophene carboxylate is as follows:

First take an appropriate amount of thiophene as the starting material, put it in an appropriate reaction vessel, and react with a specific sulfonating agent under suitable reaction conditions to obtain 3-sulfothiophene derivatives. In this step, attention should be paid to the precise regulation of reaction temperature, time and reagent dosage to avoid side reactions.

Then, the obtained 3-sulfothiophene derivative is reacted with ammonia or an appropriate compound of ammonia to convert the sulfo group into an aminosulfonyl group to obtain a 3-aminosulfonylthiophene compound. During this process, factors such as the pH and temperature of the reaction environment have a great influence on the process of the reaction and the purity of the product, so careful control is required.

Then take an appropriate reagent containing methoxycarbonyl methyl, and react with 3-aminosulfonylthiophene compound in a suitable solvent under the action of a catalyst to construct the key structure of the target product. In this condensation reaction, the choice of solvent, the type and dosage of catalyst are all key factors affecting the success or failure of the reaction.

Finally, through a series of separation and purification operations, such as extraction, crystallization, column chromatography, etc., impurities in the reaction system are removed to obtain pure methyl-N- (methoxycarbonyl methyl) -3-aminosulfonyl-2-thiophenecarboxylate. Each separation and purification operation requires fine operation according to the physical and chemical properties of the product and impurities to ensure high purity of the product.

What are the physical and chemical properties of Methyl N- (methoxycarbonylmethyl) -3-sulfamoyl-2-thiophenecarboxylate?

Methyl-N- (methoxycarbonyl methyl) - 3-aminosulfonyl-2-thiophene carboxylate, this is an organic compound with unique physical and chemical properties.

Looking at its physical properties, it is mostly solid at room temperature and pressure. Due to the existence of strong forces between molecules, such as van der Waals force and hydrogen bond. The melting point and boiling point vary depending on the interaction of each group in the molecular structure. The polar aminosulfonyl group and ester group contain polar groups, which enhance the intermolecular forces, and the melting point and boiling point are relatively high.

Its solubility is also worth exploring. The compound contains polar groups and theoretically has a certain solubility in polar solvents such as methanol and ethanol. Due to the formation of hydrogen bonds or other intermolecular forces between polar solvents and polar groups of compounds, dissolution is promoted. However, the thiophene ring is a non-polar part, which limits its solubility in polar solvents, and its solubility in non-polar solvents such as n-hexane is poor.

When it comes to chemical properties, its ester groups can be hydrolyzed, and hydrolysis occurs under acidic or alkaline conditions. Under acidic conditions, hydrolysis generates carboxylic acids and alcohols; under alkaline conditions, hydrolysis is easier to proceed, generating carboxylic salts and alcohols. Sulphonyl groups have a certain reactivity of sulfur atoms, which can participate in nucleophilic substitution and other reactions. In addition, although thiophene rings are aromatic, they can undergo electrophilic substitution reactions under specific conditions due to their electron cloud distribution characteristics, and the substitution positions are affected by other groups on the ring.

In conclusion, the physicochemical properties of methyl-N- (methoxycarbonyl methyl) -3 -aminosulfonyl-2 -thiophenecarboxylate are determined by its molecular structure, which are of great significance for its applications in organic synthesis, drug discovery and other fields.

What is the price range of Methyl N- (methoxycarbonylmethyl) -3-sulfamoyl-2-thiophenecarboxylate in the market?

I don't know what the price of "Methyl+N-%28methoxycarbonylmethyl%29-3-sulfamoyl-2-thiophenecarboxylate" is on the market. This is a rather uncommon chemical substance, and its price is determined by many factors.

First, the difficulty of preparation is the key factor. If the preparation process is complicated, requires multiple steps of reaction, and the reaction conditions are strict, such as precise temperature, pressure, catalyst, etc., or the raw materials are scarce and rare, the cost will be high, and the price will also rise.

Second, the market demand situation also affects the price. If there is a large and stable demand for this substance in a specific field, such as pharmaceutical research and development, material science, etc., and the supply is relatively limited, according to the principle of supply and demand, the price will be in a higher range; conversely, if there is little demand, the price may be reduced.

Third, the number of manufacturers is related to the competitive situation. If there are many manufacturers and the market competition is fierce, the manufacturers may lower the price moderately in order to compete for share; if there are few manufacturers, it is almost monopolistic, and the price may be more manipulative and maintained at a high level.

However, I do not have the exact market data, so it is difficult to say its price range. To know the details, you may need to consult chemical product suppliers, relevant industry experts, or consult a professional chemical product price information platform to obtain a more accurate price range.