6 Aminopyridine 3 Carbonitrile
pyridine pyrrole pyrazine piperidine piperazine

6-aminopyridine-3-carbonitrile

    Specifications

    HS Code

    682910

    Chemical Formula C6H5N3
    Molar Mass 119.12 g/mol
    Appearance Solid
    Color Typically white to off - white
    Odor May have a faint, characteristic odor
    Melting Point 128 - 130 °C
    Solubility In Water Slightly soluble
    Solubility In Organic Solvents Soluble in some organic solvents like ethanol, DMSO
    Pka No common pKa data available for this compound as a whole, but the pyridine nitrogen can be basic

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    General Information
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    Frequently Asked Questions

    As a leading 6-aminopyridine-3-carbonitrile supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

    What are the main uses of 6-aminopyridine-3-formonitrile?
    6-Hydroxypyridine-3-formic acid, or niacin, is an indispensable nutrient for the human body and plays a key role in many physiological processes. Its main uses are as follows:
    First, in the field of medicine, niacin can be used as a pharmaceutical raw material. Because it can significantly regulate the level of blood lipids in the human body, effectively reduce low-density lipoprotein cholesterol, and increase high-density lipoprotein cholesterol, it has a good preventive and therapeutic effect on cardiovascular diseases. At the same time, it also plays an important role in maintaining the health of the skin, digestive system and nervous system, and can prevent and treat diseases caused by niacin deficiency such as pellagra.
    Second, in the food field, niacin is often used as a nutritional enhancer. Since the human body cannot synthesize niacin itself, it must be ingested from food. Adding niacin to food, such as bread, grains, dairy products, etc., can effectively supplement the human body's demand for this nutrient, especially for special groups, such as pregnant women, children, the elderly, etc., which is of great significance for maintaining their normal growth and development and physical health.
    Third, in the field of feed, niacin is also an important additive. Adding niacin to animal feed can promote animal growth and development, enhance animal immunity and disease resistance, improve feed conversion rate, and then improve animal husbandry production efficiency. For example, adding an appropriate amount of niacin to pig feed can improve pig meat quality and reproductive performance; adding it to poultry feed can enhance poultry egg production quality and disease resistance. In summary, 6-hydroxypyridine-3-carboxylic acid, or niacin, has critical uses in the pharmaceutical, food, and feed industries, with far-reaching implications for human health and animal husbandry.
    What are the synthesis methods of 6-aminopyridine-3-formonitrile?
    The synthesis method of 6-hydroxydopamine-3-methyladrenaline is quite complicated and requires a delicate method.
    In the past, there were methods of extraction and transformation based on natural substances. At the beginning, choose plants and trees rich in related ingredients and extract them with suitable solvents. For example, choose a certain type of herb, soak it in an alcohol solvent, and dissolve the ingredients over time. Then, perform distillation and fractionation to purify the resulting liquid and obtain a crude product. Then add chemical reagents, and according to specific reaction conditions, perform functional group transformation to gradually form 6-hydroxydopamine-3-methyladrenaline. Although this way is derived from nature, the collection of raw materials may be limited by season and region, and the extraction process is complicated, and the yield is difficult to be said to be high.
    There are also those who take chemical synthesis as the diameter. First take suitable starting materials, such as aromatic hydrocarbons with specific structures. In a halogenation reaction, halogen atoms are introduced to pave the way for subsequent reactions. Then nucleophilic substitution is carried out to connect groups containing hydroxyl and amino groups. In this case, the control of the reaction conditions is the key, and the temperature and pH are slightly poor, which will cause the reaction to be biased. Then through a series of reactions such as oxidation and reduction, the structure of the target molecule is gradually built. The synthesis process requires a variety of catalysts to promote the speed of the reaction and increase the selectivity of the reaction. However, although chemical synthesis can be prepared on a large scale, the raw materials may be toxic, and there are many reaction steps, which requires strict equipment and operation.
    There are also those who explore biosynthesis methods. Cultivate microorganisms with specific metabolic pathways, and adjust their metabolic pathways through gene editing, so that they can efficiently synthesize 6-hydroxydopamine-3-methyladrenaline. Taking genetically engineered bacteria as an example, foreign genes are introduced into the bacteria to construct engineered strains. After optimizing the culture conditions, such as regulating the composition of the medium, temperature, dissolved oxygen, etc., the bacteria can synthesize the target product according to human intention. This way is green and environmentally friendly, the reaction conditions are mild, but the cultivation of strains takes a long time, and it is easy to be contaminated by bacteria. The technical threshold is quite high.
    What are the physical properties of 6-aminopyridine-3-formonitrile?
    For 3-aminobutyric acid-3-acetic acid, its physical properties are very specific.
    First of all, its shape is often white and crystalline, and the crystal shape is complete. This is due to the orderly arrangement of its molecules. Its exterior is white, like winter snow, the light is soft, and it is easy to melt under the light.
    The melting of 3-aminobutyric acid-3-acetic acid at a certain degree, this is the solution of solid 3-aminobutyric acid-3-acetic acid. The characteristic of this melting agent is that the molecular force is relative, and the attractive force of the molecule is just right. Therefore, the melting agent has this fixed value, which is one of the important factors for this substance.
    Furthermore, its solubility is also an important physical property. In water, 3-aminobutyric acid-3-acetic acid can be partially dissolved, because the molecule contains water-based molecules, which can interact with water molecules to form hydration. However, its solubility is not limited, but is subject to factors such as the size of the molecular integrity. In some alcohols, there is also a specific solubility table, such as in some alcohols, the degree of solubility is different from that of water, which is due to the interaction of the soluble molecules, or the effect of the effect of the Vander force.
    Its density also has a certain value, which reflects the amount of its position and the density of its molecules. The value of the density is determined, which can help to perform quantitative calculations and operations in the process of engineering and engineering.
    In addition, the taste of this product is weak and close to the taste, which is also one of its physical properties. The light taste of its molecules also fails to form a strong and strong taste base.
    Therefore, the physical properties, shape, solubility, density, and taste of 3-aminobutyric acid-3-acetic acid all affect each other, reflecting the properties of their molecules. There are important values for chemical research, chemical research, and multiphase research.
    What is the market price of 6-aminopyridine-3-formonitrile?
    In today's market, the price of acetaminophen often changes with time, and it also varies according to the supply and demand of the city, the distance of the place, and the quality of the product.
    At the time of Suifeng and Yiping Ning in the city, the supply and demand are in harmony, and the price is more stable. An ordinary acetaminophen agent, each box (about twenty capsules), the price may be between ten and twenty or thirty dollars. However, if the epidemic is rampant, and everyone is competing to buy it to keep out the cold and heat, the market's demand will increase sharply, and the supply will not respond quickly, the price will go up. Or there are profiteers who take advantage of the danger of others and raise the price to make a huge profit. The price of a box may be fifty or sixty dollars, or even double it.
    Also, the distance of the land also depends on the price. The capital is Dayi, where merchants converge, the logistics is convenient, and the supply of medicine is sufficient, and its price is usually flat. And in despicable places, the transportation is inconvenient, and the transfer of medicines is difficult. If it is resold by merchants layer by layer, it will cost a lot, and the price will be higher.
    And the quality of the medicine is different, and the price is also poor. Made by famous factories, the materials are strictly selected, the craftsmanship is exquisite, the quality is high, and the price may be slightly higher. And the products of unknown workshops, although they are also in line with the rules of production and sales, are of inferior quality, but the price may be slightly lower.
    However, observing the general trend of the world, the court often observes the change of prices, and is afraid that the merchants will indiscriminately raise their prices, causing the people to be trapped in illness and unable to treat. Therefore, every government decree is issued to regulate the pharmaceutical market, so that the price cannot be moved rashly, so as to ensure the well-being of the people and make the trade of the market fair. Although there may be price fluctuations from time to time, it will not rise and fall in the end, and the people can still bear it.
    What are the precautions for 6-aminopyridine-3-formonitrile in storage and transportation?
    6-Hydroxypyridine-3-formic acid needs to be paid attention to during storage and transportation.
    One is related to storage. This substance should be stored in a cool, dry and well-ventilated place. If the substance is placed in a high temperature environment, it may cause changes in its chemical properties. For example, high temperature or cause changes in its molecular structure, reducing its chemical stability and affecting the subsequent use effect. At the same time, humid environments are also taboo, as they may react with water and cause deterioration. For example, deliquescence will occur, causing the original pure substance to mix with water, changing its purity and properties. Furthermore, co-storage with strong oxidizing agents, acids and other substances should be avoided. Due to its chemical properties, contact with strong oxidants is prone to violent oxidation reactions, or there is a risk of combustion or explosion; coexistence with acids may also cause chemical reactions and destroy its original structure.
    Second, it involves transportation. Make sure that the packaging is intact during transportation. If the packaging is damaged, it will not only cause material leakage and pollute the environment, but also the leaked substances may react with the external environment, posing a safety hazard. For example, after leakage, contact with certain components in the air, or produce harmful gases. Transport vehicles need to have good ventilation equipment to reduce the risk of volatile accumulation of substances. In addition, transport personnel should be familiar with the characteristics of the substance and emergency treatment methods. In the event of an accident during transportation, such as leakage, etc., countermeasures can be taken quickly and correctly to avoid the expansion of harm. In addition, the relevant regulations and standards must be strictly followed during transportation, and no overloading or mixing should be allowed to ensure the safety and order of the transportation process. In this way, the purpose of storing and transporting 6-hydroxypyridine-3-formic acid can be achieved to ensure its quality and safety.