3-Cyano-4,6-dimethyl-2-hydroxypyridine

3-Cyano-4,6-dimethyl-2-hydroxypyridine is one of the organic compounds. Its main uses are quite extensive, and it is often a key intermediate for the synthesis of drugs in the field of medicinal chemistry. Because the compound has a specific chemical structure and activity, it can construct a variety of complex drug molecular structures through chemical modification and reaction to achieve specific pharmacological effects. For the creation of many drugs such as antibacterial, anti-inflammatory, anti-tumor, etc., it is often relied on as a starting material or an important synthetic building block.
In the field of materials science, it also has applications. Due to its structure endowing special electronic properties and stability, it can also participate in the synthesis of functional materials, such as for the preparation of organic materials with specific optical and electrical properties, in the research and development of organic Light Emitting Diode (OLED), solar cells and other devices, or can play a role in helping to improve material properties and device efficiency.
In addition, in pesticide chemistry, it also shows potential value. Or it can be used as a basic structural unit for the synthesis of new pesticides. After rational molecular design and modification, pesticides are endowed with excellent characteristics such as high efficiency, low toxicity, and environmental friendliness, which can be used for the control of crop diseases and pests to ensure the smooth progress of agricultural production.
In summary, 3-cyano-4,6-dimethyl-2-hydroxypyridine has important uses in many fields such as medicine, materials, and pesticides, and provides an indispensable basic raw material and key intermediate for the development of chemical synthesis and related industries.

3-Cyano-4,6-dimethyl-2-hydroxypyridine is an organic compound. Its physical properties are very important, and it is related to the behavior of this compound in various situations.
First of all, its appearance is often in a solid state, which is caused by intermolecular forces, so that it maintains a solid structure at room temperature and pressure. Its melting point is also a key physical property. Although the exact value may vary depending on impurities and measurement conditions, the approximate range can characterize the energy required for it to change from solid to liquid, revealing the strength of intermolecular interactions.
In terms of solubility, it may have a certain solubility in polar organic solvents such as ethanol and acetone. Due to the fact that its molecular structure contains polar groups, it can form hydrogen bonds or other intermolecular forces with polar solvents, so it is soluble. However, in non-polar solvents, such as n-hexane, the solubility may be very small, because it is difficult for the non-polar part to interact effectively with the non-polar solvent.
In addition, the density of the compound is also one of its characteristics. Density reflects the mass per unit volume and is related to the way its molecules are deposited and the relative molecular mass. Although there is no exact value, the density range can be inferred from its structure and similar compounds, which is crucial in application scenarios involving mass and volume conversion.
Furthermore, its vapor pressure has a specific value at a certain temperature. Vapor pressure characterizes the tendency of a substance to evaporate from liquid or solid to gaseous state, which is inversely proportional to the strength of intermolecular forces. Because intermolecular forces affect the difficulty of molecules to break away from the condensed phase, vapor pressure is also a key parameter for understanding the volatility of this compound.
In conclusion, the physical properties of 3-cyano-4,6-dimethyl-2-hydroxypyridine, such as appearance, melting point, solubility, density, and vapor pressure, are important for understanding its essence and application, and are of key significance in chemical synthesis, materials science, and many other fields.

The chemical synthesis method of 3-cyano-4,6-dimethyl-2-hydroxypyridine has been known for a long time. Its methods are diverse and continue to evolve over time.
First, specific pyridine derivatives are used as starting materials, and the target molecule is constructed through a delicate reaction path. The initial raw materials need to be carefully screened and purified to ensure a smooth reaction. In a suitable reaction vessel, the starting pyridine derivative is added, supplemented by specific reagents and catalysts, and the precise temperature and reaction time are controlled. During this period, the reagents interact with the raw materials, and the chemical bonds are rearranged, broken and formed, gradually approaching the target structure. In this process, the reaction conditions such as temperature and pH are strictly controlled, and a slight deviation may cause the reaction yield to be low and the product to be impure.
Second, there are also nitrogen-containing heterocyclic compounds as groups, which are synthesized through ingenious conversion strategies. First, specific modifications are made to the nitrogen-containing heterocyclic ring, the desired substituent is introduced, and then the molecular structure is carefully carved through a series of reactions such as cyanation and hydroxylation. In the cyanation step, select the appropriate cyanide reagent, consider its reactivity and selectivity, and ensure that the cyanide group is accurately connected to the predetermined position. The hydroxylation reaction also needs to be careful, and the appropriate reagents and reaction conditions should be selected to obtain the ideal hydroxylation product.
Furthermore, there is a multi-step series reaction method. After a series of successive reactions, several simple raw materials are used in the same reaction system, without the need for cumbersome intermediate product separation, and the target molecule is efficiently constructed. Although this approach can simplify the operation process, it requires extremely high compatibility of the reaction conditions and each step. Each step of the reaction needs to cooperate with each other, and the product of the previous step can smoothly participate in the subsequent reaction, and the whole reaction process needs to be within the controllable range to obtain high-purity 3-cyano-4,6-dimethyl-2-hydroxypyridine.
All these synthesis methods require the experimenter to be well versed in chemical principles, skilled in operation skills, and have a good understanding of the details of the reaction, in order to obtain satisfactory results and synthesize this important organic compound.

I don't know the price range of 3-cyano-4,6-dimethyl-2-hydroxypyridine in the market. The price of these compounds often varies due to a variety of factors, such as purity, yield, market supply and demand, purchase channels, etc. If you want to know the exact price, you can find it on the chemical raw material trading platform, reagent supplier, or communicate with the chemical product sales merchant. They may be quoted at different prices according to the required quantity, quality and other conditions. And the chemical market price is constantly changing, and the real-time price must be observed accordingly.

3-Cyano-4,6-dimethyl-2-hydroxypyridine is one of the organic compounds. In today's chemical industry, many manufacturers are involved in its production.
In the world of Guanfu's "Tiangong Kaiwu", although there is no confirmation of this compound, the chemical method at that time also laid the foundation for today's production. Today's manufacturers, whether in China or in foreign countries, rely on the progress of science and technology and use the method of chemical synthesis.
In China, Jiangsu, Zhejiang and Guangdong, there are factories that are skilled in organic synthesis, with advanced equipment and technology, to produce this compound. It is widely used in medicine, synthetic pesticides and other fields. There is also no shortage of such manufacturers abroad. In Europe and the United States, chemical technology has been accumulated for a long time, and the products produced are also of high quality.
However, in the way of production, it is necessary to follow the rules and take into account environmental protection and safety. In the past, "Tiangong Kaiwu" also emphasized the good use of skills. Today's manufacturers should take scientific methods to ensure the quality and reduce the harm to the environment. Therefore, it can be used in the chemical industry for a long time, so that this compound can be widely used in the world.