2-Pyridinepropanimidamide, hydrochloride (1:1)

2-Pyridyl-propionamidine hydrochloride (1:1), this is an organic compound. It has unique chemical properties. Looking at its structure, the pyridine ring is connected to the propionamidine group and binds a molecule of hydrochloric acid.
In terms of physical properties, it is often solid and can be dissolved in a suitable solvent. Because of its hydrochloride salt, it has good solubility in water and can interact with water molecules due to ionic bonding.
In terms of chemical activity, the pyridine ring is aromatic and can participate in many electrophilic substitution reactions. The nitrogen atom in the propionamidine group has lone pairs of electrons and is basic. It can react with acids to form salts or participate in nucleophilic reactions. This compound may be involved in the field of organic synthesis and is used to construct more complex organic molecular structures. In medicinal chemistry, or because of its structural characteristics, it exhibits specific biological activities, such as interacting with specific targets in organisms, which has potential medicinal value. In the reaction, its activity checking point can be used to modify and derive derivatives with different properties and functions.

2-Pyridyl-propionamidine hydrochloride (1:1) has a wide range of uses. In the field of pharmaceutical chemistry, it is often a key intermediate for the synthesis of drugs. Due to its unique chemical structure, it can be combined with other compounds through a specific reaction path to prepare drugs with special pharmacological activities. For example, the creation of antibacterial and anti-inflammatory drugs can help adjust the molecular configuration of drugs and enhance their affinity and activity to specific targets.
In the field of organic synthesis, it is also an important starting material for the construction of complex organic molecules. Chemists can use ingenious design of reaction steps to build various carbon-nitrogen and carbon-carbon bonds based on 2-pyridyl-propionamidine hydrochloride (1:1), expand the molecular skeleton, and lay the foundation for the creation of new organic materials or bioactive molecules.
Furthermore, in biochemical research, it may be used as a biochemical reagent to assist in exploring the mechanism of specific biochemical reactions in organisms. Because of its structural properties, it may be able to simulate the behavior of certain biomolecules, providing clues and tools for analyzing complex biochemical processes, helping researchers gain insight into the mysteries of life activities and promoting the progress of biological science.

To prepare 2-pyridyl propionamide hydrochloride (1:1), the following ancient method can be used.
Take 2-pyridyl propionate as the starting material and make it react with a suitable amination reagent. Ammonia or amine compounds are often selected, and they are amidated under a suitable reaction environment, such as at a specific temperature and pressure. The key to this step is to control the temperature and reaction time. If the temperature is too high, side reactions will occur frequently, and if it is too low, the reaction will be slow and take a long time. If the time is too short, the reaction will not be completed; if it is too long, the material will be consumed, and the product may be decomposed.
After the amidation is completed, the obtained product is co-located with the amidination reagent. Commonly used amidination reagents, such as cyanamide or its derivatives, are used in appropriate solvents with the help of catalysts to convert amides to amidines. The properties of the solvent and the amount of catalyst are both critical. The solvent needs to be compatible with the reactants without causing side reactions. The amount of catalyst should also be accurate. If it is less, the catalysis will be ineffective, and if it is more, the cost will increase and unnecessary reactions may be caused.
Finally, mix the amidinized product with hydrochloric acid in a ratio of 1:1. This mixing should be carried out under low temperature and gentle stirring conditions, so that the amidine and hydrochloric acid can be fully combined to obtain 2-pyripropionamide hydrochloride (1:1). After each step of the reaction, it is necessary to remove impurities by suitable separation and purification methods, such as extraction and recrystallization, to obtain a pure product. In this way, according to the above steps, careful operation can obtain the required 2-pyripropionamide hydrochloride (1:1).

2-Pyridyl propionamidine hydrochloride (1:1), when storing, be sure to pay attention to everything. This compound likes dryness and is afraid of moisture disturbance, so it should be placed in a dry place, away from water vapor. Water vapor invades or deteriorates, damaging its chemical properties.
Furthermore, temperature is also critical. It should be stored in a cool place, away from hot topics. Under high temperature, this compound may have a chemical reaction, the activity changes, and its effectiveness is greatly reduced. Generally speaking, a low temperature environment of 2-8 ° C is preferred, which can ensure its stability and prolong its effectiveness.
And this substance is sensitive to light, and it has been exposed to light for a long time, or it may cause its structure to change. Therefore, the storage device should have the ability to block light, or be hidden in a dark cabinet to prevent it from facing the light.
Because it is a chemical product, it may pose a certain hazard. The storage place must be kept away from food, drinks and places that children can touch. And it should be stored in a special device, clearly marked, and its name and characteristics are clearly indicated to prevent the risk of accidental ingestion. Only by paying attention to all kinds of things can we ensure that 2-pyridyl propionamidine hydrochloride (1:1) is safe and effective during storage.

I look at this question, and I am inquiring about the market price of 2-pyridyl propionamide hydrochloride (1:1). However, the market price is not static, and often changes due to various reasons.
This compound may have applications in chemical, pharmaceutical and other industries. The difference in its price depends primarily on the quality. Refined pure products, the price may be high; those with more impurities, the price must be low.
Secondly, the situation of supply and demand also affects the price. If there are many people seeking, and there are few suppliers, the price will rise; conversely, if the supply exceeds the demand, the price will drop.
Furthermore, the cost of production is also the key. The price of raw materials, the simplicity of the process, the amount of energy consumption, etc., all affect the cost, and then the selling price.
Repeat, the region of sale is also different. Prosperous commercial ports, logistics is convenient, transactions are frequent, and prices are stable; remote places, transportation costs are high, and prices may be slightly higher.
As for the exact price, you must visit the chemical raw material market, chemical reagent suppliers, or consult relevant industries to get a near real-time price. It cannot be generalized, and it is necessary to look into various factors to know the approximate market price.