3-Pyridinecarbonitrile,6-amino-5-methyl-(9CI)

This is the problem of solving the chemical structure of the chemical substance 3-pyridinonitrile, 6-amino-5-methyl (9CI). According to the naming convention of organic chemistry, the pyridine ring is its core structure. "3-pyridinonitrile" means that the cyano group is attached to the 3rd position of the pyridine ring. And "6-amino-5-methyl" indicates that there is an amino group at the 6th position of the pyridine ring and a methyl group at the 5th position.
To obtain the chemical structure of this substance, the pyridine ring should be used as a group. The pyridine ring has a six-membered aromatic ring structure, in which one carbon atom is replaced by a nitrogen atom. Add the cyano group at position 3, that is, the -CN group. Introduce the methyl group at position 5, which is the -CH group. Connect the amino group at position 6, that is, the -NH 2O group. In this way, the structure of this chemical substance is clear.
The structure of this substance depends on the sophisticated application of the nomenclature of organic chemistry. Following this rule, the structure can be derived from the name, and the composition of its molecules is of key importance in many fields such as chemical research and synthesis, helping researchers to clarify the properties and reaction laws of substances for in-depth exploration and application.

3-Pyridineformonitrile, 6-amino-5-methyl- (9CI), this substance has a wide range of uses. In the field of medicinal chemistry, it is often a key intermediate for the synthesis of specific drugs. Through specific chemical reaction steps, the molecular structure of the drug can be ingeniously introduced, giving the drug unique pharmacological activity, such as precise action against specific disease targets, helping to develop new disease-resistant agents, for the health and well-being of patients.
In the field of materials science, it also has value that cannot be ignored. It can participate in the creation of high-performance materials and optimize the physical and chemical properties of materials with its special chemical structure. For example, in optical materials, it affects the light absorption and emission characteristics of materials, or in electronic materials, it regulates the electrical properties of materials and expands the application boundaries of materials.
In the field of organic synthesis, as an extremely important building block. With its active reaction check point, it reacts with various organic reagents, builds complex organic molecular structures, greatly enriches the variety of organic compounds, injects vitality into the development of organic synthetic chemistry, and promotes related scientific research to a new height.

3-Pyridineformonitrile, 6-amino-5-methyl- (9CI) This substance is one of the organic compounds. Its physical properties are unique. Under normal temperature and pressure, it is in a solid state. Looking at its appearance, it is mostly white to white crystalline powder.
When it comes to the melting point, it is about 173-177 ° C. This temperature characteristic makes it change its state under specific conditions. Its solubility also has characteristics. It is slightly soluble in water, but it shows good solubility in organic solvents such as ethanol and dichloromethane. This difference in solubility is due to the difference in its molecular structure and the forces between water molecules and organic solvent molecules.
Furthermore, its density is also one of the important physical properties. Although the specific value needs to be determined by precise experiments, the approximate range can be inferred based on the analogy between its chemical structure and similar compounds. And because of the existence of specific atoms and functional groups in its molecular structure, it has a certain stability. However, in a specific chemical environment, it can also participate in many chemical reactions and exhibit active chemical activities, which are all related to physical properties and affect its application in different fields.

The synthesis of 3-pyridinecarbonitrile, 6-amino-5-methyl- (9CI), is a key issue in the field of organic synthesis. To obtain this compound, various routes can be followed.
First, it can be started from the starting material containing the pyridine ring. Choose a suitable pyridine derivative, which has a modifiable functional group at a specific position. After a specific reaction step, such as halogenation, a halogen atom is introduced at a specific position in the pyridine ring. This halogen atom can provide an active check point for subsequent reactions.
Then, the nucleophilic substitution reaction is used to react with the halogenated pyridine derivative with an amino-containing reagent. This nucleophilic substitution reaction needs to be carried out under suitable reaction conditions, such as suitable solvent, base and temperature. In this way, amino groups can be introduced into the pyridine ring.
Subsequently, for the introduction of methyl groups, methylation reagents can be selected, such as iodomethane. Under appropriate base and reaction conditions, methylation occurs at specific positions on the pyridine ring to obtain the target compounds 3-pyridine formonitrile, 6-amino-5-methyl- (9CI).
Second, there are other synthesis strategies. The basic skeleton of the pyridine ring can be constructed first, and amino and methyl functional groups can be introduced at the same time. For example, in a multi-step reaction, a pyridine ring structure is formed by cyclization. During the cyclization process or after cyclization, amino and methyl groups are introduced in a timely manner.
However, no matter what kind of synthesis method is used, the reaction conditions need to be carefully regulated. The reaction temperature, time, proportion of reactants and the catalyst used all have a profound impact on the reaction results. Slight deviation, or reduced yield, or by-products. Only by carefully controlling the reaction parameters can the synthesis of 3-pyridinecarbonitrile, 6-amino-5-methyl- (9CI) can be efficiently and with high purity.

I don't know what the price range of 3 - Pyridinecarbonitrile, 6 - amino - 5 - methyl - (9CI) is in the market. However, if you want to know the price of this product, you need to explore it in many ways. Or you can consult various chemical suppliers, because the pricing often depends on many factors. Such as the cost of raw materials, if the raw materials for preparing this compound are rare or difficult to find or the price is high, the price of the finished product will also be high; and the simplicity of the production process, if the process is complicated, multiple processes, special equipment and technology are required, and the price will also increase.
Furthermore, the market supply and demand situation is also critical. If there are many applicants and there are few suppliers, the price will rise; conversely, if the supply is abundant and the demand is low, the price may fall. And different suppliers compete for market share, pricing is also different, or there are preferential promotions.
In addition, the purchase volume also affects the price, and bulk purchases often get discounts. To determine the price range, you can ask on the chemical product trading platform, industry exhibition or borrow industry contacts, and synthesize all the information to get a more accurate price range.