3-Pyridinecarbonitrile, 1,2-dihydro-4-methyl-2-oxo-

3-Pyridyl methylnitrile, 1,2-dihydro-4-methyl-2-oxo, is one of the organic compounds. It has specific chemical properties. Among this compound, the pyridine ring is its core structure, and the nitrile group (-CN) is connected to the pyridine ring, giving it a certain reactivity. Nitrile groups can participate in many reactions, such as hydrolysis to obtain corresponding carboxylic acids, or conversion to amine compounds through reduction.
Furthermore, the structural part of 1,2-dihydro-4-methyl-2-oxo, in which the carbonyl group (C = O) is also an important reaction check point. The presence of carbonyl groups allows the compound to undergo nucleophilic addition reactions, such as the reaction with alcohols to form acetals or hemiacetals, and the reaction with amines to form imines.
The introduction of methyl groups also affects the physical and chemical properties of the compound. Methyl groups are the power supply groups, which can affect the electron cloud density distribution on the pyridine ring, and then affect the activity and check point selectivity of its electrophilic substitution reaction. Generally speaking, the electron cloud density of the adjacent and para-sites of the pyridine ring can be relatively increased, and under appropriate conditions, the electrophilic reagents are more inclined to attack these positions.
In addition, the compound exhibits certain optical properties and stability due to its conjugated system. The conjugated system helps to delocalize the electrons, reducing the molecular energy and enhancing the stability. Optical phenomena such as electron transition may occur under the irradiation of light of a specific wavelength. In short, this compound has rich chemical properties and may have certain application potential in fields such as organic synthesis.

3-Pyridyl-formonitrile, 1,2-dihydro-4-methyl-2-oxo, has a wide range of uses. In the field of pharmaceutical synthesis, it is often a key intermediate. Due to its unique structure, compounds with specific pharmacological activities can be derived through various chemical reactions. For example, some drugs used to treat cardiovascular diseases or neurological diseases are often used as starting materials in the synthesis path. After ingenious transformation, complex and therapeutic molecular structures are constructed.
In the field of materials science, it also has its own influence. Due to some physical and chemical properties, it can participate in the creation of new organic materials. Or improve the stability of materials, or endow materials with specific optical and electrical properties. For example, in the research and development of organic Light Emitting Diode (OLED) materials, rational modification and application can optimize the luminous efficiency and lifespan of the materials, contributing to the progress of display technology.
In the field of pesticide chemistry, it also plays an important role. Based on it, a variety of high-efficiency, low-toxicity and environmentally friendly pesticides can be developed. By modifying its structure, it can show excellent killing or inhibitory activity against specific pests or pathogens, which can help the pest control of agricultural production, ensure crop harvest, and reduce the negative impact on the environment and ecology. In short, this compound has value that cannot be ignored in many fields, providing a key foundation and possibility for many scientific research and industrial production.

To prepare 3-pyridyl methanonitrile, 1,2-dihydro-4-methyl-2-oxo, the method is as follows:
First take an appropriate amount of starting materials, through delicate chemical conversion, often need to be suitable for the reaction conditions. In the reactor, control the precise temperature and pressure, accompanied by an appropriate catalyst, so that the reactants can react smoothly.
can be based on a specific organic compound, through a condensation reaction, so that the molecular structure is initially formed. During the process, the reaction process needs to be carefully observed to ensure that the reaction goes in the expected direction. At the time of condensation, choose a suitable solvent to fully mix the reactants to improve the reaction rate and effect.
Then through oxidation or other modification steps, the molecular structure is precisely adjusted to meet the specific functional group requirements of the target product. This step also requires careful temperature control and time control, and pay attention to the proportion of reactants to avoid excessive side reactions.
When the reaction is asymptotically completed, the target product is finely separated from the reaction mixture by suitable separation and purification methods, such as distillation, extraction, and chromatography, and impurities are removed to obtain pure 3-pyridinitrile, 1,2-dihydro-4-methyl-2-oxo products. During the operation, all steps must be strictly adhered to the chemical operation specifications and carefully followed in order to achieve satisfactory results.

I don't know the price range of 3 - Pyridinecarbonitrile, 1, 2 - dihydro - 4 - methyl - 2 - oxo in the market. However, if you want to know its price, you can check it in detail on various chemical trading platforms. For example, chemical network and the like, many merchants list the prices of goods, or you can find their traces. Or consult chemical suppliers, they often know the market conditions and can tell the recent price range. And different purity and batch, their prices may vary. To get the exact price, you must inquire more and comprehensively consider the quotations of each supplier to know the approximate price range.

I look at your question, but I am inquiring about the manufacturer of 3-pyrimethanonitrile, 1,2-dihydro-4-methyl-2-oxygen. However, the relevant information of this product is rarely contained in ancient books. In today's world, if you want to know its manufacturer, you should seek it through today's information channels.
In today's world, information spreads very quickly, and those who are online are the way to seek knowledge. You can use major search engines to type the name of this product, check the web page presented, or get clues from the manufacturer. Such as a chemical product trading platform, on which polychemical manufacturers publish various product information, or have your requirements.
Furthermore, the exhibition of the chemical industry is also a good place to explore manufacturers. Chemical exhibitions are often held in various places, where manufacturers gather and display products. You can meet relevant manufacturers in person and inquire about product details.
And the periodicals and magazines of the chemical industry often contain advertisements and product introductions of manufacturers. If you read such publications, you may be able to get one or two clues.
Although it is difficult to answer the manufacturer of this product in ancient Chinese, with today's methods, you can find relevant information to help you solve your doubts.