As a leading 2-Furfurylthiothiazole supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.
What are the main uses of 2-Furfurylthiothiazole?
2-Furfuryl thiothiazole has a wide range of uses. In the field of fragrances, this substance has a unique aroma and can add a special fragrance to various products. It is often used in food fragrance preparation to make food emit an attractive fragrance and increase its flavor and taste. For example, in baked goods, it can create a unique burnt aroma and attract appetite.
In daily chemical products, 2-Furfuryl thiothiazole is also used. In perfumes, aromatherapy and other products, it can contribute a unique fragrance, add layers and depth to the aroma, and make the product aroma richer and more attractive.
In industry, it may play a role in the synthesis process of some special materials. It can be used as an intermediate for specific reactions to assist in the synthesis of materials with special properties, but it is not as widely used in the field of fragrances.
In short, 2-furfuryl thiothiazole has certain value in the fields of fragrances, daily chemicals and some industrial synthesis due to its unique chemical structure, and plays an important role in the quality improvement and characteristic shaping of many products.
What are the physical properties of 2-Furfurylthiothiazole?
2-Furfuryl thiothiazole is an organic compound. Its physical properties have many characteristics. Under normal conditions, this substance is either liquid, looking at its color, or colorless to yellowish transparent, flickering under light, just like morning dew reflecting the sun, clear and moist. Its smell is unique, emitting a fragrant atmosphere, but not a rich fragrance, but like a faint flower rhyme, strands of silk, tantalizing, and popular in the field of fragrances.
When it comes to density, it is relatively moderate, falling within the category of common organic liquids. Its boiling point and melting point are determined according to the chemical structure. The boiling point is high, and it needs to be heated moderately in order to transform it from liquid to gaseous state, just like a phoenix nirvana, undergoing energy conversion; the melting point also has a specific value, and within a specific temperature limit, it maintains its inherent state.
In terms of solubility, in organic solvents, such as ethanol, ether, etc., it can be well miscible, just like fish and water blend, and the phase is seamless; however, in water, the solubility is limited, and the two seem to be distinct and difficult to mix into one. This property is related to the polarity of the molecule. Its volatility is relatively low, and it is not easy to quickly escape into the air under normal temperature, and it can exist more stably in the space where it is located.
In addition, the refractive index of 2-furfuryl thiothiazole also has characteristics. When light passes through, it is deflected according to its specific laws. This property is used in optical analysis and other fields, and may be used as a basis for identification. Overall, the physical properties of this substance make it unique in many fields, such as food additives, fragrance preparation, organic synthesis, etc. Function and value.
What is the chemistry of 2-Furfurylthiothiazole?
2-Furfuryl thiothiazole is an organic compound with unique chemical properties and has shown important uses in many fields.
This compound has a special structure, the thiazole ring is connected to the furfuryl group through the sulfur atom. This structure endows it with various chemical activities. From the perspective of physical properties, it may be in a solid or liquid state, and the properties of melting point and solubility are closely related to its intermolecular forces and structure.
When it comes to chemical activity, both thiazole ring and furfuryl group can participate in the reaction. The nitrogen and sulfur atoms on the thiazole ring are rich in solitary pair electrons, which can be used as electron donors to participate in nucleophilic reactions. For example, it can be substituted with electrophilic reagents to introduce new functional groups at specific positions of the thiazole ring, thereby expanding its chemical properties and application scope. The bran-based part can undergo addition reactions due to the double bond, such as addition to halogens, hydrogen halides and other electrophilic reagents to change the molecular structure and properties.
In terms of stability, the compound is relatively stable under general conditions, but in case of extreme conditions such as high temperature, strong oxidants or strong bases, the chemical bonds may be destroyed. At high temperatures, the vibration of chemical bonds in the molecule intensifies to a certain extent, and the bond energy is not enough to maintain the stability of the structure, triggering decomposition reactions. Strong oxidants can oxidize specific atoms on the thiazole ring or bran group, changing its chemical structure. Strong bases or cause some functional groups on the bran group to undergo hydrolysis and other reactions.
The chemical properties of 2-furfuryl thiothiazole make it potential for application in the fields of fragrances, medicine, pesticides, etc. In the field of fragrances, its special smell can be used to formulate unique fragrances; in the field of medicine, its chemical activity may make it have certain biological activity, which is expected to be developed into drugs; in the field of pesticides, or as a new pesticide ingredient due to its activity on specific organisms.
What is 2-Furfurylthiothiazole production method?
The preparation method of 2-furfuryl thiothiazole is as follows:
The starting materials are often furfuryl alcohol and thiourea, potassium bromide and sulfuric acid. First, pour an appropriate amount of sulfuric acid carefully into the water and let it cool. Take furfuryl alcohol and place it in the cooled sulfuric acid solution, stir slowly, so that the two are fully mixed. This process needs to pay attention to the change of temperature, so that the temperature should not be too high. After
, add thiourea and potassium bromide to the above mixture in turn. When adding, add slowly, and continue to stir to make the materials evenly dispersed. After adding, move the mixed reaction solution to a specific reaction device to maintain a certain temperature, usually 60-80 ° C, and carry out the reaction for several hours, usually about 3-5 hours. During the reaction, the progress of the reaction needs to be closely observed, and the degree of reaction can be monitored by specific analytical methods, such as thin-layer chromatography.
When the reaction reaches the desired level, the reaction is terminated. The reaction product is moved to the separation funnel and extracted with an appropriate amount of organic solvent, such as ether. Extract several times to ensure that the product is fully transferred to the organic phase. After that, the organic phases are combined and dried with a desiccant such as anhydrous sodium sulfate to remove the moisture.
The dried organic phase is distilled under reduced pressure to remove the organic solvent to obtain the crude product. The crude product can be further purified by column chromatography, and a suitable eluent is selected to separate the product and impurities according to the difference in the partition coefficient between the stationary phase and the mobile phase, and finally obtain a pure 2-furfuryl thiothiazole product. During this preparation process, various factors such as material dosage, reaction temperature, reaction time, etc. have a significant impact on the yield and purity of the product, and fine regulation is required to obtain the desired result.
What is the price range of 2-Furfurylthiothiazole in the market?
The price range of 2-furfurthiothiazole in the market is difficult to determine quickly. The price of this compound is affected by many reasons, and it is difficult to generalize.
First, the purity of this compound is the key. If the purity is excellent and almost flawless, the price will be high; however, if it contains impurities, the purity is not high, and the price may be slightly inferior. For example, if the pure jade is high and difficult to find; if it contains a little flaw, the price will be low.
Second, the situation of supply and demand is also due to this. If the demand for this material in the market is surging, and the supply is slightly insufficient, just like the rain in a drought, the price will rise; on the contrary, if the demand is small and the supply is excessive, such as the flood of autumn water, the price will decline. < Br >
Third, the difficulty of preparation is also related. If the preparation method is complicated, requiring exquisite craftsmanship and rare raw materials, it is like forging a peerless magic weapon, which is time-consuming and laborious, and its price is set high; if the preparation is simple, it requires nothing more than ordinary things, and the price may be close to the people.
Fourth, the price varies from region to region and season. In the prosperous capital of Dayi, or when materials are abundant, the price may be stable; in remote places, or in seasons of shortage of materials, the price may fluctuate.
Today in the market, the price of this 2-thiothiazole may range from a few yuan to tens of yuan per gram. However, this is only an approximate number, and the market conditions are ever-changing, making it difficult to determine. To know the exact price, you need to consult the chemical material supplier in detail, or check the market carefully in the market before you can get it.
