5-AMINO-3-PYRIDINEMETHANAMINE

5 - AMINO - 3 - PYRIDINEMETHANAMINE is an organic compound with many unique chemical properties. This compound contains amino and pyridyl methylamine structures, which cause it to exhibit specific reactivity and physical properties.
From the perspective of chemical activity, amino is a nucleophilic group and can participate in a variety of nucleophilic substitution reactions. Under suitable conditions, it can react with halogenated hydrocarbons, acyl halides and other electrophilic reagents to form new nitrogen-containing derivatives. Moreover, the amino group can be protonated, forming ammonium ions in an acidic environment, which affects the solubility and reactivity of the compound.
The pyridine ring also has a significant impact on the properties of the compound. The pyridine ring has certain aromatic and basic properties, which can participate in the electron conjugation system and affect the distribution of molecular electron clouds. The nitrogen atom of the pyridine ring can be used as an electron pair donor to form coordination compounds with metal ions, or interact with other molecules with electron-deficient centers.
In terms of physical properties, the compound has a certain water solubility due to its polar amino group and pyridine ring. However, the specific solubility is also affected by the overall structure of the molecule and other substituents. Its physical constants such as melting point and boiling point depend on intermolecular forces, such as hydrogen bonds, van der Waals forces, etc. Intermolecular hydrogen bonds may cause its melting point and boiling point to increase.
In addition, 5-AMINO-3-PYRIDINEMETHANAMINE may be biologically active. Due to its nitrogen-containing heterocyclic and amino structure, it may interact with targets in vivo, such as binding to biological macromolecules such as proteins and nucleic acids, showing potential pharmacological activities or biological functions. This property makes the compound valuable for research in drug development, biochemistry and other fields.

5-Amino-3-pyridylmethylamine, this substance has a wide range of uses and has many applications in the field of medicinal chemistry.
First, it can be used as a pharmaceutical intermediate. The structure of gainpyridine and amine groups gives it unique activity and can interact with many targets in organisms. Through organic synthesis, it can be modified and derived to produce various therapeutic drugs. For example, when developing antibacterial drugs, new compounds are constructed based on it, which can interfere with bacterial metabolic processes and achieve antibacterial effects by virtue of their structural properties.
Second, it is also used in materials science. With its nitrogen-containing structure, it can participate in polymerization reactions to prepare polymer materials with special properties. Such materials may have good electrical conductivity and optical properties, etc., and may play a key role in the fields of electronic devices, optical materials, etc., providing new ways for the creation of new materials.
Third, in the field of chemical research, 5-amino-3-pyridylmethylamine is an important chemical reagent, which can be used to explore new reaction paths and study reaction mechanisms. Due to its unique chemical structure, it can trigger novel chemical reactions, help chemists expand the boundaries of chemical knowledge, and discover new chemical synthesis strategies and methods.

The synthesis of 5-amino-3-pyridylmethylamine is quite complicated and needs to be carried out according to the principles of organic synthesis. The first step is to prepare suitable starting materials, often based on compounds containing pyridine structures.
can be started with a pyridine derivative with a suitable substituent group, and an amino and methylamino group can be introduced through a specific reaction step. For example, a halogenation reaction can be used to introduce a halogen atom at a specific position of pyridine. This halogen atom is active and can be a key check point for subsequent reactions.
Then, a nucleophilic substitution reaction is used to replace the halogen atom with an amino or methylamino group. Nucleophilic substitution reactions require careful selection of reaction conditions, such as suitable bases, solvents, and temperatures. Bases can promote the activity of nucleophiles, solvents affect the reaction rate and selectivity, and temperature also has a significant effect on the reaction process.
Or metal-catalyzed coupling reactions can be used to achieve the introduction of amino groups and methamine groups. Metal catalysts can activate reactants and promote the formation of bonds, but the choice depends on the characteristics of the substrate.
During the synthesis process, after each step of the reaction, purification methods such as column chromatography and recrystallization are required to obtain a pure product. If impurities are not removed, subsequent reactions will be affected, resulting in impure final products. < Br >
The synthesis of 5-amino-3-pyridylmethylamine requires fine planning of the reaction path, precise control of the reaction conditions, and proper purification of the product to obtain ideal results.

5-Amino-3-pyridylmethylamine, the price of this substance in the market is geometric, and it is difficult to determine. The domain of its price is often influenced by various factors.
First of all, the difficulty of its preparation is very critical. If the preparation method is complicated, all kinds of rare raw materials are required, or the process is harsh, and delicate control is required, the cost will be high, and the price will be high. On the contrary, if the preparation technique is simple and the raw materials are easy to cause, the price may be more affordable.
Furthermore, the supply and demand of the market is also an important factor. If there are many people seeking this product in the market, but there are few suppliers, and the supply is in a state of shortage, the price will rise; if the supply exceeds the demand, the merchant will sell the product at a lower price.
Again, the price varies depending on the producer. Large producers may have lower prices due to the benefits of scale, and the cost may be controllable. Small producers may have lower prices due to the lack of scale.
In addition, the city's competition, economic trends, and policy regulations can all affect their prices. < Br >
However, in the market, the price of 5-amino-3-pyridylmethylamine is in the range of tens to hundreds of yuan per gram, but this is only a rough estimate. The actual price depends on the current market conditions, quality specifications, etc., and can only be determined by consulting suppliers in detail.

5 - AMINO - 3 - PYRIDINEMETHANAMINE, Chinese name 5 - amino - 3 - pyridylmethylamine, is an organic compound, which is widely used in medicine, pesticides and other fields. As for its manufacturers, there are many in the world, the following are a few:
First, Sigma - Aldrich Company, is a world-renowned chemical supplier, with rich and diverse products, high quality and good reputation, and is trusted by many scientific research institutions and enterprises.
Second, TCI (Tokyo Chemical Industry Co., Ltd.), known for providing high-purity organic compounds, is quite influential in the field of fine chemicals, and 5 - amino - 3 - pyridylmethylamine is also one of its products.
Third, Alfa Aesar Company, focuses on providing high-quality chemicals for scientific research and industrial customers, and produces 5-amino-3-pyridylmethylamine to meet different customer needs.
Fourth, there are also many domestic manufacturers involved in this field. For example, some companies that focus on the production of organic synthesis intermediates, with their own technical and cost advantages, actively participate in the production of 5-amino-3-pyridylmethylamine, contributing to the market supply.
However, it should be noted that the product quality, price and supply stability of different manufacturers may vary. When purchasing, enterprises and researchers should evaluate the manufacturer's products several times according to their own needs and make careful choices to ensure that the selected products meet the practical application requirements.