1H-Imidazole-4-propanol, beta-amino-, dihydrochloride, (S)- (9CI)

(S) -β-amino-1H-imidazole-4-propanol dihydrochloride (9CI), which is an organic compound. Looking at its name, it can be known that it is composed of imidazole, propanol and amino groups and other structural units.
Its core structure is an imidazole ring, which has a unique chemical activity. The propanol group is connected at the 4th position of the imidazole ring, which adds alcohol properties to the molecule, such as participating in esterification and other reactions. The β-amino group is connected to the β position of the propanol group, giving the molecule alkalinity because the amino group can accept protons. In addition, the compound exists in the form of dihydrochloride, which means that the molecule forms a salt with two hydrochloric acid molecules, enhancing its solubility in water.
The chemical structure of this compound makes it valuable in the field of organic synthesis and medicinal chemistry. Or it can be used as an intermediate in organic synthesis to construct more complex compound structures; in medicinal chemistry, its unique structure or interaction with specific biological targets shows pharmacological activity.

(S) -β-amino-1H-imidazole-4-propanol dihydrochloride (9CI) is an organic compound with specific physical properties. It is usually in the form of a white to off-white crystalline powder, which is easy to identify and distinguish.
In terms of solubility, its solubility in water is crucial, because in many chemical experiments and industrial applications, the solubility of the substance determines whether it can be uniformly dispersed in the reaction system or solvent, which in turn affects the reaction process and effect. After the substance is dissolved in water, it can form a uniform and stable solution, which is conducive to subsequent operations.
Its melting point is also a key physical property. However, the specific melting point value will vary slightly due to differences in purity and measurement methods. It is roughly in a specific temperature range. Accurate melting point data needs to be determined by professional instruments. Melting point, as an inherent property of a substance, can assist in the identification of its purity and structure.
In addition, the compound has certain hygroscopicity, that is, it is easy to absorb moisture from the air, which requires attention to moisture resistance during storage and use to maintain its chemical stability and purity. Store in a dry, cool and well-ventilated place to prevent quality changes due to moisture absorption.
In conclusion, the physical properties of (S) -β-amino-1H-imidazole-4-propanol dihydrochloride (9CI) are of great significance in its research, production and application, and have guiding value for both practical operation and theoretical research in related fields.

(S) -β-amino-1H-imidazole-4-propanol dihydrochloride (9CI) has a wide range of uses. This is an important organic compound and often plays a key role in the field of medicine and chemical industry.
In the process of pharmaceutical research and development, it may be a key intermediate for synthetic drugs. Through delicate chemical reactions, it can be turned into drug molecules with specific pharmacological activities. Due to its unique chemical structure, it can interact with specific targets in organisms, or can regulate physiological and biochemical processes to achieve the purpose of treating diseases.
In the field of chemical industry, it may be used to prepare special materials. With its active group, it can participate in the polymerization reaction, etc., thereby endowing the material with different properties, such as improving the solubility and stability of the material.
And because of its chiral characteristics, it is also of great value in the study of enantiomer selective synthesis. Researchers can use its chiral centers to induce the formation of products of specific configurations, improving the selectivity and efficiency of the reaction.
In short, (S) -β-amino-1H-imidazole-4-propanol dihydrochloride (9CI) has shown indispensable uses in many fields such as medicine and chemical industry, and has made great contributions to the development of related fields.

The synthesis method of (S) -β-amino-1H-imidazole-4-propanol dihydrochloride (9CI) can follow the following steps:
When starting, it is necessary to prepare suitable starting materials, including compounds containing imidazole structure and alcohol derivatives with specific functional groups. First, the imidazole-containing structure is interacted with the alcohol derivative with halogen atom under mild reaction conditions. This reaction requires an inert gas-protected environment, using an anhydrous organic solvent as a medium, such as dry tetrahydrofuran or dichloromethane, and adding an appropriate amount of base, such as potassium carbonate or triethylamine, to promote the departure of halogen atoms and promote the reaction in the direction of generating the target intermediate.
After obtaining the intermediate containing imidazole and alcohol structure connection, proceed to the amination step. Suitable amination reagents can be selected, such as potassium phthalimide and halogenated reagents, which introduce the potential amino structure through nucleophilic substitution, and then treat it with hydrazine hydrate to release the free amino group. This series of reaction conditions needs to be precisely controlled, and the temperature should be maintained in a moderate range, such as between 40 and 60 degrees Celsius, so that the reaction is smooth and efficient.
Finally, the obtained product containing amino group and imidazole-4-propanol structure is treated in an acidic environment with chlorination reagents such as concentrated hydrochloric acid to form its dihydrochloride salt. This salt-forming reaction is carried out at a low temperature, such as 0 to 5 degrees Celsius, to obtain (S) -β-amino-1H-imidazole-4-propanol dihydrochloride. The whole synthesis process, the conditions of each step of the reaction, the proportion of raw materials and the purification of intermediates are all related to the purity and yield of the final product, which requires fine operation and caution.

(S) -β-amino-1H-imidazole-4-propanol dihydrochloride (9CI), which is often a key raw material for drug synthesis in the field of medicine. Due to its unique chemical structure and properties, it can participate in the construction of many drug molecules, providing an important basis for the development of new therapeutic drugs, especially drugs for the treatment of diseases of the nervous system and cardiovascular system.
In the field of biochemical research, it can act as a biologically active molecular probe. By interacting with specific biomacromolecules, it helps researchers to clarify complex biochemical processes and molecular mechanisms in organisms, which is of great significance for revealing the mysteries of life and exploring the root causes of diseases.
In the field of organic synthesis, it is an important class of organic synthesis intermediates. With functional groups such as active amino and hydroxyl groups, complex organic compound structures can be constructed through various chemical reactions, creating conditions for the synthesis of novel organic materials and functional compounds, and promoting the development of materials science and organic synthetic chemistry.