1,1'-pyridine-2,6-diyldiethanone

1%2C1%27-pyridine-2%2C6-diyldiethanone, that is, 1,1 '-pyridine-2,6-diyl diethyl ketone, has a wide range of uses. In the field of medicine, it is an important intermediate for drug synthesis. It can build complex drug molecular structures through specific chemical reactions, help the development of new drugs, and play a key role in the creation of therapeutic drugs for many diseases. In the field of materials science, it can participate in the synthesis of functional materials. With its unique chemical structure, it endows materials with special properties, such as improving the stability and optical properties of materials, laying the foundation for the preparation of new functional materials. In terms of organic synthetic chemistry, as a building block for organic synthesis, it can generate a variety of organic compounds through various reactions, such as condensation reactions, addition reactions, etc., enrich the types and structures of organic compounds, and promote the development of organic synthetic chemistry. It is of great significance to the theoretical research and practical application of organic chemistry.

1% 2C1% 27 - pyridine - 2% 2C6 - diyldiethanone, is an organic compound. Its physical properties are quite impressive.
Looking at its appearance, under room temperature and pressure, it often takes a certain shape. Or it is a crystalline solid with a delicate texture and a pure white color, just like the snow that falls in the early winter, crystal clear and clear; or it is a colorless liquid, clear like a spring, with light and shadow flowing between flows.
In terms of its melting point, the melting point of this substance is specific, and this temperature is the key node for its transition from solid to liquid. When the ambient temperature rises to the melting point, 1% 2C1% 27 - pyridine - 2% 2C6 - diyldiethanone of the solid state gradually melts, just like spring snow meets the warm sun, and slowly turns into a liquid state.
Boiling point is also one of its important physical properties. Under specific pressure conditions, when it reaches the boiling point, the substance rapidly converts from liquid to gaseous state and turns into a curling smoke-like vapor.
In terms of solubility, it varies in different solvents. In some organic solvents, such as ethanol and ether, its solubility is quite good, and it can blend with the solvent, just like fish water, forming a uniform and stable solution. However, in water, its solubility may be relatively limited, and it may only be able to dissolve a little, just like oil drops in water, which is difficult to completely miscible.
Density is also a factor to consider its physical properties. Its density determines the comparison of the mass of other substances under the same volume. This density value provides an important basis for studying its existence and behavior in different environments.
And the volatility of this substance also has characteristics. Under suitable conditions, it can evaporate slowly and dissipate in the surrounding space. A unique smell may be smelled in the air. Although it may not be rich and pungent, it is also unique, like a unique sign hidden in the air.

1% 2C1% 27 - pyridine - 2% 2C6 - diyldiethanone, that is, 1,1 '-pyridine-2,6-diyl diethyl ketone. The synthesis method requires pyridine as the base and various ingenious changes.
Start to take pyridine, so that it can be combined with a specific halogenated alkane at a suitable temperature and catalyst, and undergo nucleophilic substitution. The choice of this halogenated alkane is related to the back direction and yield of the reaction, and its structure and activity need to be carefully considered. During the reaction, the halogenated atom of the halogenated alkane is attacked by the nucleophilic attack of the pyridine nitrogen atom, forming a carbon-nitrogen bond, and a pyridine derivative is initially obtained.
Then, let the derivative meet the acylating agent. The acylating agent, usually an acyl halide or an acid anhydride, with the help of a base, the acyl group attacks the carbon atom at a specific position of the pyridine derivative and undergoes an acylation reaction. In this step, the amount of base, reaction temperature and time are all key, and proper control is required to enable the acyl group to fall precisely on the pyridine-2,6-diyl group to obtain the precursor of 1,1 '-pyridine-2,6-diyl diethyl ketone. The
precursor needs to be further modified, or through reduction, oxidation and other reactions, in order to adjust its functional group and achieve the structure of the target product. Each step of the reaction requires detailed regulation of the reaction conditions such as temperature, solvent, catalyst, etc., and the separation and purification of the product is required to remove impurities and obtain pure 1,1 '-pyridine-2,6-diyl diethyl ketone. This synthesis method is interlocked step by step, and it is difficult to achieve the expected product if there is a slight difference in the pool.

I don't know the price range of "1% 2C1% 27 - pyridine - 2% 2C6 - diyldiethanone" in the market. This is a very professional chemical substance, and its price often varies depending on factors such as purity, supply, and market supply and demand. To know the exact price range, you can consult the chemical product trading platform and chemical reagent supplier in detail, or you can consult with industry experts and professional purchasers, who may be able to tell you a more accurate price range based on current market conditions. However, with this name alone, it is difficult for me to make assumptions about its price.

1% 2C1% 27-pyridine-2% 2C6-dimethyl diethyl ketone. This is a chemical substance. When using it, many matters need to be paid attention to.
First, safety protection must be comprehensive. This substance may be toxic and irritating, and protective equipment is indispensable when exposed. When operating, it is advisable to wear protective clothing, gloves, goggles and gas masks to avoid contact with the skin and eyes, and to prevent inhalation of dust and steam. In case of accidental contact, rinse with plenty of water immediately and seek medical treatment if necessary.
Second, storage conditions must be appropriate. Store in a cool, dry, well-ventilated place, away from fire and heat sources. To be stored separately from oxidizing agents, acids, alkalis, etc., do not mix storage to prevent dangerous chemical reactions. The storage area should be equipped with suitable materials to contain leaks.
Third, the operation process must be standardized. When using, it should be carried out in a fume hood to ensure good ventilation and timely discharge of volatile harmful gases. Take an appropriate amount to avoid waste. After the operation is completed, properly dispose of the remaining substances and do not discard them at will. If there is a leak, personnel from the leaked contaminated area should be quickly evacuated to a safe area and quarantined to strictly limit access. Emergency personnel need to wear protective equipment to prevent leaks from contacting combustible substances. Small leaks can be absorbed by inert materials such as sand and vermiculite. Large leaks need to be built embankments or dug for containment.
Fourth, the transportation link must be cautious. Before transportation, ensure that the packaging is complete and the loading is secure. During transportation, ensure that the container does not leak, collapse, fall or damage. It is strictly forbidden to mix and transport with flammable substances, oxidizers, etc. The speed of the vehicle should not be too fast to avoid bumps and vibrations.