Thiazole-5-carboxaldehyde, 97%

Thiazole-5-formaldehyde (97%) is widely used in various chemical and scientific fields.
In the process of organic synthesis, it is a key intermediate. It can combine with other compounds through many reaction pathways. For example, with reagents containing active hydrogen, according to the method of condensation reaction, new compounds with complex structures can be produced. This is very useful when creating fine chemicals such as medicines and pesticides. In the process of pharmaceutical research and development, thiazole-5-formaldehyde can be used to prepare molecules with specific biological activities, or as antibacterial and antiviral drugs to treat various human diseases.
In the field of materials science, it also has its own role. The special polymers or functional materials it participates in the synthesis may have unique optical and electrical properties. It can be used in the field of optoelectronic materials, such as the manufacture of organic Light Emitting Diodes (OLEDs), which help it emit brilliant light and contribute to the progress of display technology.
In the dye industry, thiazole-5-formaldehyde can also play a role. With appropriate chemical reactions, it can be converted into dye molecules. The dyes produced may have the characteristics of bright color and good fastness, which add a lot of color to the color of fabrics, leather and other materials, and make everything in the world look colorful.

Thiazole-5-formaldehyde (content 97%), this is an organic compound. Its physical properties are quite important and are related to many chemical uses.
Let's talk about the appearance first. Under normal temperature and pressure, thiazole-5-formaldehyde is often in a liquid state. Looking at it, its color is clear, and it may have a slightly special color. However, the specific color often varies according to the purity of the preparation and the impurity situation. Its smell is unique, with a certain degree of irritation, and it can sense a pungent smell. This is a common property of aldehyde compounds.
When it comes to boiling point, its boiling point is within a specific range due to molecular structure and intermolecular forces, but the exact value varies slightly due to different experimental conditions. At a certain temperature range, when enough energy is provided by the outside world, the thermal motion of the molecule intensifies, overcoming the intermolecular forces, and then changing from liquid to gaseous.
Melting point is also a key physical property. Under suitable conditions, when cooled to a specific temperature, thiazole-5-formaldehyde will solidify from liquid to solid, and this temperature is the melting point.
In terms of solubility, thiazole-5-formaldehyde has a certain solubility in common organic solvents, such as ethanol, ether, etc. Because its molecular structure contains specific functional groups, it can form specific interactions with organic solvent molecules, so it is soluble. However, in water, due to the different forces between water molecules and thiazole-5-formaldehyde molecules, its solubility is relatively limited.
Density is also one of the physical properties. Compared with water, the density of thiazole-5-formaldehyde may be different, which determines its stratification when mixed with water. In many organic reactions and separation operations, density properties are crucial.
These physical properties are of great significance for the storage, transportation, and application of thiazole-5-formaldehyde in chemical synthesis, drug development, and other fields, and must be familiar to relevant workers.

The chemical properties of thiazole-5-formaldehyde (content 97%) are relatively stable. Looking at this compound, its structure is unique, and the thiazole ring is connected to the aldehyde group. Although the aldehyde group has certain activity, in thiazole-5-formaldehyde, the activity degree is changed due to the conjugation effect of the thiazole ring and the influence of electron cloud distribution.
Under common chemical reaction conditions, if there is no specific reagent and suitable reaction environment, the typical reaction of aldehyde groups, such as the addition reaction with nucleophilic reagents, occurs at a slower rate than that of simple alarms. The presence of the thiazole ring endows the compound with certain aromaticity, making it resistant to external factors such as heat and light.
During storage, if placed in a dry, cool and dark environment, the substance can maintain its chemical composition and structure unchanged for a long time. Even if exposed to air, it is difficult to have significant chemical changes in a short period of time. However, in the case of strong oxidizing agents or reducing agents, under appropriate conditions, the structure of aldehyde groups or thiazole rings will still change accordingly. Overall, thiazole-5-formaldehyde (97%) is relatively stable chemically under normal conditions.

To obtain thiazole-5-carboxylic aldehyde (purity 97%), the common synthesis methods are as follows:
First, it can be obtained from the corresponding thiazole derivative through a specific oxidation reaction. Select a suitable oxidizing agent, such as a mild and selective oxidation reagent, and under suitable reaction conditions, oxidize and convert specific groups on the parent structure of thiazole to form aldehyde groups. This process requires fine regulation of reaction temperature, time and reagent dosage to prevent excessive oxidation from damaging the purity and yield of the product.
Second, a series of reactions such as nucleophilic substitution of thiazole ring with halogenated compounds containing specific substituents and sulfur and nitrogen heterocyclic compounds are used to construct thiazole ring, and then the aldehyde group is converted into an aldehyde group through appropriate functional group. In the meantime, the nucleophilic substitution step requires the selection of appropriate solvents and bases to promote the smooth progress of the reaction, and the subsequent functional group conversion also needs to accurately control the reaction conditions according to the reaction mechanism and substrate characteristics.
Third, the coupling reaction strategy with the help of transition metal catalysis. The unique catalytic activity of transition metal catalysts is used to couple suitable organometallic reagents with halogenated thiazole derivatives. At the same time, the substrate structure is ingeniously designed, and the functional groups that can be converted into aldehyde groups are reserved at specific positions. After the subsequent mild conversion steps, the final product thiazole-5-carboxyaldehyde is obtained. This method requires high purity, catalyst activity and ligand selection of the reaction system, and requires careful optimization to achieve high yield and high purity synthesis.

Thiazole-5-formaldehyde, 97% purity, its price range in the market is difficult to determine. Because the price of chemical products is often influenced by many factors.
First, the price fluctuation of raw materials has a huge impact on it. If the raw materials required for the synthesis of thiazole-5-formaldehyde change in price due to changes in origin, season, supply and demand, the price of finished products will also fluctuate. For example, if raw materials are scarce, prices will rise, and finished products will also rise.
Second, the quality of production technology is related to cost and price. Advanced technology can improve yield and reduce energy consumption, and product prices may have advantages; if the process is backward, the cost will be high, and the price will also be high.
Third, the market supply and demand situation is the key factor. If the market demand for thiazole-5-formaldehyde increases sharply at a certain time, but the supply is limited, the price will rise; on the contrary, if the demand is small and the supply is large, the price will decline.
Fourth, the difference between the manufacturer's brand and product quality also leads to different prices. Well-known manufacturers, high-quality manufacturers, or due to reputation and quality assurance, the price is higher.
To know the exact price range, you can consult chemical product suppliers, distributors, or consult the chemical product trading platform, so that you can get a more accurate price.