4-oxo-2-mercaptothiazole-3-acetic acid

4-Oxo-2-mercaptothiazole-3-acetic acid, the chemical structure of this compound is based on the thiazole ring. The thiazole ring is a five-membered heterocycle containing sulfur and nitrogen, which has unique chemical activity and stability.
In this compound, the thiazole ring is connected to a thiol group (-SH) at the second position. The thiol group has high nucleophilicity and can participate in many chemical reactions, such as nucleophilic substitution and redox. The third position is connected with an acetic acid group (-CH -2 COOH), which gives the compound a certain acidity because its carboxyl group can dissociate hydrogen ions. At the same time, the 4-position is an oxo group (= O), and the presence of the oxo group affects the electron cloud distribution of the thiazole ring, which in turn affects the chemical properties and reactivity of the whole molecule.
The interaction of various parts of this chemical structure makes 4-oxo-2-mercaptothiazole-3-acetic acid exhibit specific physical and chemical properties, and may have potential application value in organic synthesis, pharmaceutical chemistry and other fields.

4-Oxo-2-mercaptothiazole-3-acetic acid, this is an organic compound. It has a wide range of uses in the field of medicine and is often used as a key intermediate for the synthesis of drugs. Due to its specific chemical structure, it can participate in many drug synthesis reactions and help build a molecular framework with biological activity, which is of great significance for the development of new drugs and the improvement of drug efficacy.
In agriculture, it can be used in the creation of pesticides through appropriate derivatization or formulation design. With its unique chemical properties, it may play a role in sterilization, insecticide and other effects, contributing to the control of crop pests.
In the field of materials science, this compound may participate in the preparation of some functional materials. The specific functional groups contained in it may endow materials with special properties such as anti-oxidation and adsorption, thereby expanding the application field of materials, such as potential value in new adsorption materials and protective coating materials.
In the field of chemical synthesis, as an important intermediate, it can participate in a series of organic synthesis reactions. By substitution and addition with other compounds, more complex organic molecules can be constructed, laying the foundation for the research and development of chemical products. In short, 4-oxo-2-mercaptothiazole-3-acetic acid has important applications in many fields and promotes the development of related industries.

The synthesis method of 4-oxo-2-mercaptothiazole-3-acetic acid has been explored by many parties throughout the ages. One method is to first take an appropriate thiazole compound as the base and combine it with a carboxyl-containing compound according to a specific stoichiometric ratio in a specific reaction environment, such as in a suitable solvent, with the help of a catalyst. In this process, the temperature and duration of the reaction need to be precisely regulated to prevent side reactions from clumping and causing impure products.
Another way is to use sulfur-containing raw materials to construct the structure of the thiazole ring through ingenious steps. At the beginning of the reaction, create a suitable pH, so that the raw materials interact to form an intermediate product. Then, this intermediate product is oxidized, and the degree of oxidation is carefully controlled to convert some of its functional groups into the desired carbonyl group. After introducing the acetic acid group, this step also needs to be careful, paying attention to the mildness of the reaction conditions, so as not to damage the formed structure.
There is a method of synthesis, using thioamide and halogenated acetic acid derivatives as starting materials. When the two meet, in a specific reaction vessel, in the presence of a suitable acid binding agent, the preliminary product is first reacted to form. Then, through the cyclization step, a thiazole ring is formed. This cyclization reaction requires strict physical and chemical conditions of the reaction system. Temperature, pressure, and polarity of the solvent are all key factors. If there is a slight difference, it will be difficult to achieve the expected product purity and yield.
All synthesis methods have their own advantages and disadvantages. It is necessary to choose the best one according to the actual situation, such as the availability of raw materials, cost considerations, and product purity requirements.

4-Oxo-2-mercaptothiazole-3-acetic acid, this is a rather unique organic compound. Its physical properties are as follows:
Looking at its appearance, under room temperature and pressure, it is mostly white to light yellow crystalline powder. This morphology allows it to exhibit specific reactivity and contact area in many chemical reactions.
When it comes to solubility, this compound has good solubility in organic solvents such as dimethyl sulfoxide (DMSO) and N, N-dimethylformamide (DMF). However, in water, its solubility is relatively limited. This difference in solubility is actually determined by its molecular structural properties. There are both polar groups in the molecule, which can interact with polar solvents; however, it also contains non-polar parts, which limits its solubility in water.
Another melting point, after precise determination, the melting point of 4-oxo-2-mercaptothiazole-3-acetic acid is within a certain range. This melting point characteristic is crucial in the identification of the purity of the compound and its stability under different temperature conditions. When the temperature gradually rises near the melting point, the compound will undergo a physical state transition, from a solid state to a liquid state, and the intermolecular forces will also change during this process.
As for density, under specific temperature and pressure conditions, it has a specific density value. This density data is indispensable for guiding the chemical production and experimental operation of the compound, such as material ratio and reactor volume calculation.
Its odor is weak, without pungent or special strong odor. This odor characteristic, in actual operation and application scenarios, allows the operator to not worry too much about the discomfort caused by the odor or potential health risks.
In summary, the many physical properties of 4-oxo-2-mercaptothiazole-3-acetic acid play a pivotal role in the fields of organic synthesis and drug development, laying a solid foundation for its further research and application.

4-Oxo-2-mercaptothiazole-3-acetic acid. The price range of this product in the market is difficult to determine due to the complicated market conditions. In the past, the prices of all things contained in "Tiangong Kaiwu" also changed with the times. Today, the price of 4-oxo-2-mercaptothiazole-3-acetic acid often depends on the abundance of raw materials, the difficulty of preparation, and the amount of need. If the raw materials are full and the preparation method is simple, the price may be slightly lower; conversely, the raw materials are rare, the preparation is complicated, and there are many people in demand, the price must be high.
Its preparation involves many chemical techniques, and the process is fine. There is a slight difference, which affects the quality and output, and also affects the cost and selling price. And the change of market supply and demand, such as the pharmaceutical and other industries, the demand for this material increases greatly, and the supply is not enough, the price will rise; if the supply exceeds the demand, the price may decline.
According to past market conditions and the price of chemical materials, the price per gram may range from a few yuan to tens of yuan. However, this is only a rough estimate. The actual price should also be carefully inspected in the chemical raw material market and consulted with various suppliers to obtain an accurate number. It must not be based on speculation alone. To know the exact price, it is necessary to explore it in detail in the current market to know what it is.