2-Mercaptobenzothiazolyl-(Z)-2-(2-Aminothiazole-4-Yl)-2-TrityloxyiminoAcetate

2 - Mercaptobenzothiazolyl - (Z) - 2 - (2 - Aminothiazole - 4 - Yl) - 2 - TrityloxyiminoAcetate, this is an organic compound. Its use is quite critical, and it is often found in the field of medicinal chemistry, especially in the creation process of antibacterial drugs.
In the development of antibacterial drugs, this compound can interact with specific targets in bacteria due to its unique molecular structure. The specific groups contained in its structure can interfere with the synthesis of bacterial cell walls or inhibit the synthesis of bacterial proteins, thereby achieving antibacterial effect.
In addition, it can also act as an important intermediate in the preparation of some fine chemicals. With the help of a series of organic synthesis reactions, using this as a starting material, many fine chemicals with special properties can be derived. These fine chemicals have a wide range of applications in materials science, daily chemicals and other fields. In the field of materials science, it may be used to synthesize polymer materials with special properties; in the field of daily chemicals, it may provide key ingredients for some special skin care products, detergents, etc.
Due to its special structure, this compound has shown important value in chemical synthesis and related fields, and plays an important role in promoting the development of pharmaceutical chemistry, fine chemicals and other industries.

2 - Mercaptobenzothiazolyl - (Z) - 2 - (2 - Aminothiazole - 4 - Yl) - 2 - TrityloxyiminoAcetate is an organic compound with unique physical properties. Its properties or crystalline solids are often presented in powder form, which is caused by the intermolecular force, which promotes the orderly arrangement of molecules and the formation of a stable crystalline structure.
Melting point is of great significance in determining the purity and characteristics of the compound. Experiments have determined that its melting point is in a specific temperature range. This temperature range is the critical temperature range where the molecular lattice is heated and vibrated, which is sufficient to overcome the lattice energy, cause the crystal structure to disintegrate, and the substance to change from solid to liquid.
The solubility of this compound is also a key physical property. In organic solvents, such as common ethanol, acetone, and dichloromethane, it exhibits different dissolution behaviors. This is due to the interaction between its molecular structure and solvent molecules, such as hydrogen bonds, van der Waals forces, etc. In some organic solvents, its molecules interact strongly with solvent molecules and can be uniformly dispersed and dissolved; in some solvents, the interaction is weak and the solubility is poor.
In addition, the density of the compound is also an inherent physical property, reflecting the mass of the substance per unit volume, which is closely related to the molecular weight and molecular arrangement. Its density can be accurately determined by experimental means, providing important basic data for related applications.
Its refractive index cannot be ignored either. The refractive index represents the degree of refraction when light passes through the substance, which is related to the molecular structure of the substance and the distribution of electron clouds. Accurate determination of refractive index is essential to identify the purity and concentration of compounds and determine the properties of substances. The above physical properties lay the foundation for in-depth study of the compound and related applications.

This chemical substance is called 2-mercaptobenzothiazolyl- (Z) -2- (2-aminothiazole-4-yl) -2-triphenylmethoxy iminoacetic ester, and its chemical stability is related to many aspects.
Structurally, the compound contains complex functional groups. 2-mercaptobenzothiazolyl moiety, mercapto group has high reactivity, is easy to oxidize to form disulfide bonds, and has poor stability when exposed to oxidants. The structure of benzothiazole ring is relatively stable, and there is a certain conjugate system, which can enhance molecular stability. < Br >
2- (2-aminothiazole-4-yl) moiety, the amino group is basic, which can react with acids, change its chemical environment, and affect the overall stability. Thiazole ring also contains a conjugated system, adding a certain stability. 2-Triphenylmethoxy iminoacetate moiety, triphenylmethoxy group has a large steric resistance, which has a protective effect on imino and acetate groups and can enhance stability. However, imino groups are sensitive to acid-base conditions, and are prone to reactions such as hydrolysis in strong acid or strong base environments.
Usually, under dry, cool and no oxidants, strong acid and strong base conditions, the stability of this substance is acceptable. However, in case of specific chemical reagents or extreme environments, its functional groups will react, destroy the molecular structure, and cause loss of stability.
In short, the stability of this chemical substance is not absolute, depending on the environment and contact substances. It needs to be stored and used with caution to prevent it from becoming unstable due to changes in environmental factors.

The production process of 2-mercaptobenzothiazolyl - (Z) -2 - (2-aminothiazole-4-yl) -2-triphenylmethoxy iminoacetate is a delicate and complex process, in which the steps are interconnected and indispensable.
Bear the brunt for the selection and preparation of raw materials. It is necessary to select high-purity raw materials such as 2-aminothiazole, triphenylmethanol, chloroacetic acid, etc., to ensure the purity and accuracy of the reaction initiation. The quality of the raw materials is just like the cornerstone of a high-rise building, which is related to the quality of the final product.
Then, the key reaction steps are carried out. 2-Aminothiazole and a specific reagent are placed in a suitable reaction vessel, and under the precise control of temperature, pH and reaction time, a chemical reaction is initiated. This reaction is like a carefully choreographed dance, with each reactant interacting according to a specific rhythm, gradually bundling the prototype. During this period, triphenylmethanol is cleverly processed, converted into an active intermediate, and then fused with other reactants to build the key structure of the product.
Furthermore, during the reaction process, the control of the reaction conditions is particularly important. The temperature is just like the temperature in cooking, or the reaction is accelerated, or the reaction is yawed; the fine-tuning of pH is like the fiddling of strings, and a slight difference will affect the configuration and purity of the product. Therefore, it is necessary to borrow precision instruments, such as thermometers, pH testers, etc., to monitor in real time and adjust carefully.
After the reaction is completed, the product still needs to go through the process of purification and refining. By means such as extraction, crystallization, chromatographic separation, impurities are removed and the purity of the product is improved. This process is like panning gold in the sand, removing barren and storing cyanine, so that the product can reach the required high quality standards.
Finally, strict quality inspection is carried out to ensure that the various indicators of the product meet the established specifications. Only by passing this test can we obtain qualified 2-mercaptobenzothiazolyl - (Z) -2 - (2-aminothiazole-4-yl) -2-triphenylmethoxy imino acetate to meet the needs of subsequent industrial applications or scientific research.

The price range of 2-mercaptobenzothiazolyl - (Z) - 2 - (2-aminothiazole-4-yl) - 2-triphenylmethoxy iminoacetate in the market is difficult to say exactly. The price of this compound is determined by many factors.
First, the cost of production is a key factor. The price fluctuations of raw materials and the simplicity and difficulty of the preparation process all affect the cost. If raw materials are scarce and expensive, or the preparation requires fine and complex steps and high-end equipment, the cost will rise and the price will also increase.
Second, the supply and demand situation of the market also affects its price. If the compound is in strong demand in a specific industry and the supply is limited, the merchant will raise the price due to the tight market; conversely, if the demand is low and the supply is abundant, the price will stabilize or decrease.
Third, the quality is also a factor affecting the price. High-purity, high-quality products are often more expensive due to their difficulty in preparation and strict quality inspection; while those with lower quality may have relatively low prices.
Fourth, the price varies depending on the region and merchant of sale. The market environment and transportation costs in different regions are different, and the pricing strategies of each merchant are also different.
Therefore, it is difficult to give the exact price range without knowing the specific market situation. For details, you can consult the merchants specializing in chemical reagents, or check the quotations of the chemical product trading platform in detail to obtain more accurate price information.