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What are the main uses of 4-IODO-2-FLUORO-3-FORMYLPYRIDINE?
4-Iodine-2-fluoro-3-formylpyridine is a crucial compound in the field of organic synthesis. Its main uses are quite extensive, and in the field of medicinal chemistry, it can be used as a key intermediate to create drug molecules with specific biological activities. The structure of the geinpyridine ring and the functional groups of iodine, fluorine, and formyl can endow drugs with unique pharmacological properties and mechanisms of action, which can help to develop new drugs, such as inhibitors or therapeutic agents targeting specific disease targets.
In the field of materials science, it also shows potential application value. With its unique chemical structure, it may participate in the preparation of materials with special photoelectric properties. For example, through rational design and reaction with other organic or non-organic components, materials that can be applied to organic Light Emitting Diodes (OLEDs), solar cells and other optoelectronic devices can be constructed to improve the performance and efficiency of the devices.
In addition, in the field of fine chemicals, 4-iodine-2-fluoro-3-formylpyridine can be used to synthesize high-value fine chemicals. Due to the diversity of functional groups, it can be structurally modified and derived through various chemical reactions to obtain fine chemical products with novel structures and unique properties to meet the needs of different industrial and consumer markets.
In conclusion, 4-iodine-2-fluoro-3-formylpyridine has important uses in many fields due to its unique structure and chemical properties, providing a key material basis and research direction for research and industrial development in related fields.
What are the physical properties of 4-IODO-2-FLUORO-3-FORMYLPYRIDINE?
4-Iodine-2-fluoro-3-formylpyridine is one of the organic compounds. It has unique physical properties and is very important in the field of organic synthesis.
This compound is a solid state at room temperature and pressure. Looking at its color, it often appears white to off-white, but it may change slightly due to impurities in it. Its melting point is also a key physical property. After determination, the melting point is within a certain temperature range. This property can be used for identification and purification steps.
In terms of solubility, 4-iodine-2-fluoro-3-formylpyridine exhibits different solubility states in organic solvents. In common organic solvents, such as dichloromethane and chloroform, its solubility is good, and it can form a uniform solution. This property is convenient for participating in various chemical processes as reactants or intermediates in organic synthesis reactions. However, in water, its solubility is very small, due to the molecular structure of the compound, it is difficult to form effective interactions with water molecules.
Furthermore, its stability is also a major characteristic. Under normal environmental conditions, 4-iodine-2-fluoro-3-formylpyridine has a certain stability. When exposed to high temperature, strong light, or specific chemical reagents, it may initiate a chemical reaction and cause the structure to change. Therefore, when storing, it needs to be stored in a cool, dry and dark place to ensure the integrity of its chemical structure and the stability of its properties.
Its density is also one of the physical properties. Through experimental determination, its exact density value can be obtained. This value is of great significance for accurate measurement and calculation of dosage in a specific reaction system.
In summary, the physical properties of 4-iodine-2-fluoro-3-formylpyridine, such as state, color, melting point, solubility, stability, and density, are interrelated and affect, providing an important foundation for its application in many fields such as organic synthesis and medicinal chemistry.
What is 4-IODO-2-FLUORO-3-FORMYLPYRIDINE chemical synthesis method?
To prepare 4-iodine-2-fluoro-3-formylpyridine, the following method can be followed.
First take a suitable pyridine derivative as the starting material. Take 2-fluoropyridine as an example, it can be formylated first. Usually done by Vilsmeier-Haack reaction, 2-fluoropyridine is co-heated with N, N-dimethylformamide and phosphorus oxychloride. In this reaction, phosphorus oxychloride interacts with N, N-dimethylformamide to form a reactive Vilsmeier reagent, which undergoes electrophilic substitution with the third position of 2-fluoropyridine, and introduces formyl groups to obtain 2-fluoro-3-formylpyridine.
Then, 2-fluoro-3-formylpyridine is iodized. Iodizing reagents, such as N-iodosuccinimide (NIS), are generally used under mild conditions in a suitable solvent, such as dichloromethane. NIS provides an iodine source in the system, and electrophilic substitution occurs with specific positions on the pyridine ring. Due to the presence of formyl and fluorine atoms on the pyridine ring, the positioning effect makes the iodine atom mainly substituted in the fourth position, so 4-iodine-2-fluoro-3-formyl pyridine is obtained.
After the reaction is completed, it needs to be separated and purified. The reaction mixture can be extracted with an organic solvent to remove insoluble impurities. After column chromatography, a suitable silica gel is selected as the stationary phase, and the elution with different proportions of eluent is used to separate the product from the by-product, and the pure 4-iodine-2-fluoro-3-formyl pyridine is finally obtained.
What is the market price of 4-IODO-2-FLUORO-3-FORMYLPYRIDINE?
4-Iodine-2-fluoro-3-formylpyridine, the price of this product in the market is difficult to break. The change in its price depends on many reasons.
First, the price of raw materials is the main reason. If the raw materials used to generate this pyridine are expensive to purchase, or due to the scarcity of raw materials and difficulties in refining, the price of 4-iodine-2-fluoro-3-formylpyridine will also rise. Conversely, if the raw materials are abundant and easy to obtain, the price will decrease.
Furthermore, the preparation method also affects its price. If the preparation method is simple and efficient, and the required equipment and labor are saved, the cost can be reduced and the price will be lower. However, if the preparation method is complicated, special equipment is required, and there are many steps, the cost of manpower and material resources is huge, and the price is high.
The supply and demand of the market is also the key. If there are many people who want to buy this pyridine, but the supply is limited, which is in a state of shortage, the merchant will raise the price to obtain a big profit. On the contrary, if the market is oversupplied, the merchant may reduce the price to promote the transaction in order to sell his goods.
In addition, the change of the current situation also has an impact. If the place of origin encounters natural or man-made disasters, causing production to be blocked and supply to be suddenly reduced, the price will rise. Or changes in trade regulations and tariff increases or decreases will also make the price of entering the market different.
To know the exact market price, when you carefully observe the market of chemical raw materials, consult with suppliers, and compare their prices, you can get a more accurate number, and you need to constantly observe the movement of the market. Because the market price changes frequently, it cannot be determined.
4-IODO-2-FLUORO-3-FORMYLPYRIDINE What are the precautions during storage and transportation?
For 4-iodine-2-fluoro-3-formylpyridine, there are several ends that need to be added during storage and transportation.
First words storage, this substance should be stored in a cool, dry and well-ventilated place. Because it may be sensitive to heat and moisture, it is essential to avoid high temperature and humidity. If placed in a high temperature environment, it may cause its chemical properties to deteriorate, or cause decomposition and other things, which will damage its quality. And moisture may also cause it to undergo reactions such as hydrolysis, affecting its purity and stability. It must be sealed and stored to prevent contact with oxygen, water vapor and other components in the air. Appropriate containers can be selected, such as glass bottles or plastic containers with good sealing properties, and the containers must be clean, dry, and free from impurities.
As for transportation, care must be taken during handling. Because it is a chemical substance, it may be dangerous to a certain extent. When transporting, ensure that the packaging is stable, free from vibration, collision, and prevent material leakage caused by container damage. The transportation environment should also meet its storage requirements and maintain low temperature and dryness. At the same time, transporters should be familiar with the characteristics of this substance and emergency treatment methods. In case of emergencies such as leakage, they can be disposed of in a timely and proper manner to avoid greater harm. And the relevant transportation documents must be complete, clearly marked with the nature of the substance, precautions, etc., so that all parties can know how to deal with it. In conclusion, when storing and transporting 4-iodine-2-fluoro-3-formylpyridine, careful attention should be paid to the environment, packaging, personnel, etc. to ensure its safety and quality.
