6-IODO-7-METHOXYIMIDAZO[1,2-A]PYRIDINE

6-Iodine-7-methoxyimidazolo [1,2-a] pyridine is an important member of organic compounds. It plays a significant role in the field of medicinal chemistry. These compounds often have a unique chemical structure, which gives them the possibility to interact with specific targets in organisms.
In drug development, 6-iodine-7-methoxyimidazolo [1,2-a] pyridine is often a key intermediate. Due to the presence of iodine atoms and methoxy groups in its structure, it can be chemically modified to synthesize drug molecules with specific pharmacological activities. For example, studies have found that some compounds derived on this basis have good affinity and inhibitory or agonistic activity for enzymes or receptors related to specific diseases, so they are expected to be developed as new drugs for the treatment of corresponding diseases.
In the field of materials science, it also has applications. Due to its special electronic structure and chemical properties, it may participate in the preparation of functional materials, such as in the synthesis of organic optoelectronic materials, as a structural unit, it affects the photoelectric properties of materials, helps to improve the efficiency of light absorption and charge transport of materials, and provides the possibility for the creation of new optoelectronic materials.
Furthermore, in the field of organic synthetic chemistry, 6-iodine-7-methoxyimidazolo [1,2-a] pyridine can be used as a reaction substrate, through various chemical reactions, such as coupling reactions, to construct more complex organic molecular structures, expand the structural diversity of organic compounds, and contribute to the development of organic synthetic chemistry.

6-Iodine-7-methoxyimidazolo [1,2-a] pyridine is a kind of organic compound. Its physical properties are particularly important, and it is related to the many uses and reaction characteristics of this compound.
First of all, under normal conditions, this substance is mostly solid, mesoscopic, usually powdery, or nearly white, or slightly yellowish, with a fine texture, like dust and powder.
As for the melting point, after rigorous measurement, it is about a specific temperature range. The value of this melting point is significant in the identification and purification of this compound. When heated, to the melting point temperature, the substance gradually melts from solid to liquid, which is sensitive and clear, and is one of the important markers of the compound.
Solubility is also a key physical property. In common organic solvents, such as some alcohols and ether solvents, 6-iodine-7-methoxy imidazolo [1,2-a] pyridine exhibits a certain solubility. In alcohols, it can be partially dissolved to form a uniform dispersion system; in ether solvents, it also has a similar performance. However, in water, its solubility is very small and almost insoluble. This difference in solubility is due to the difference between the molecular structure of the compound and the interaction between the solvent molecules.
Furthermore, its density is also a specific value. Although the values are not widely known, in precise chemical experiments and industrial applications, density data are related to the measurement and mixing of materials. Its density reflects the compactness of molecular stacking and is closely related to the structure of the compound.
In addition, the stability of the compound is also in the category of physical properties. Under normal temperature and pressure and dry environment, 6-iodine-7-methoxy imidazolo [1,2-a] pyridine is quite stable, and the molecular structure is not easy to change. However, in case of high temperature, strong light or specific chemical substances, its stability may be affected, and the molecular structure may change, resulting in changes in chemical properties.
In summary, the physical properties of 6-iodine-7-methoxyimidazolo [1,2-a] pyridine, such as their properties, melting point, solubility, density, and stability, are interrelated and are essential in many fields, such as chemical research, drug development, and industrial production.

The synthesis of 6-iodine-7-methoxyimidazolo [1,2-a] pyridine is a subject of considerable interest in the field of organic synthesis. To synthesize this substance, it can be achieved through a multi-step reaction.
In the selection of starting materials, pyridine derivatives or imidazole derivatives with specific substituents are often started. This starting material needs to be carefully selected because its structural characteristics have a great influence on the subsequent reaction process and the selectivity of the product.
The first step of the reaction, or the modification of the substituent on the pyridine ring or the imidazole ring. Halogenation can be used to introduce halogen atoms at specific positions, such as iodine atoms. This step requires strict control of the reaction conditions, such as reaction temperature, reaction time, and molar ratio of the reactants, to ensure that the iodine atoms are accurately positioned to the target position.
Subsequently, the methoxy group is introduced. Generally speaking, reagents containing methoxy groups can be used to substitution with the previous product in the presence of suitable bases and solvents. Factors such as the type and amount of base, the polarity of the solvent, etc. have a significant effect on the reaction rate and yield.
During the entire synthesis process, after each step of the reaction, a variety of separation and purification methods, such as column chromatography, recrystallization, etc., are required to obtain high-purity intermediate products. Due to the residue of impurities, it is very likely to interfere with the subsequent reaction, resulting in impure products or reduced yields.
Furthermore, the optimization of reaction conditions is crucial. Different reaction steps need to be adapted to specific temperature, pressure, catalyst and other conditions. By repeated experiments to determine the optimal reaction parameters, the efficiency of the reaction and the quality of the product can be improved. Synthesis of 6-iodine-7-methoxy imidazolo [1,2-a] pyridine requires careful design of the reaction route and fine control of each reaction link, so that the target product can be successfully prepared.

I look at your question, and I am inquiring about the price range of 6 - IODO - 7 - METHOXYIMIDAZO [1,2 - A] PYRIDINE in the market. However, the price of this product will vary due to the variety of market conditions, changes in supply and demand, as well as the quality and quality, the amount of purchase, and even the source.
In the ordinary market, if it is of general quality, if it is purchased in small quantities, the price may be high. Because of its preparation or complicated process, the materials used may be rare, and the price per gram may reach tens of gold or even hundreds of gold.
If you buy in bulk, negotiate from the supplier. Due to economies of scale, the price should be reduced. In terms of hundreds of grams or even kilograms, the price per gram may be reduced to more than ten gold.
If the quality is excellent, specially refined, and reaches high purity, the price will be higher. Or to hundreds of gold per gram, it is still unknown.
Furthermore, in different places, the price difference will also affect the price. In prosperous commercial ports, the price may be high; in remote places, if there is a supply of goods, the price may be slightly reduced.
In general, if you want to determine the exact price, you must carefully consider the purchase quantity, quality, purchase place, etc., and consult with various suppliers before you can get it.

6-Iodine-7-methoxy imidazolo [1,2-a] pyridine This substance needs to pay attention to many matters during use.
The first thing to pay attention to is its chemical properties. This is an imidazolo-pyridine compound containing iodine and methoxy group, with unique chemical activity. When operating, it is necessary to ensure that the environment is clean to avoid abnormal reactions caused by impurities. Due to its special structure or unknown reaction with some substances, the relevant reaction data should be checked before contact.
Furthermore, it is related to safety protection. Iodine has certain toxicity, and methoxy may also be potentially harmful to the human body. When operating, be sure to wear suitable protective equipment, such as gloves, goggles, gas masks, etc., to prevent skin contact, eye splashing and inhalation of its volatiles. If you accidentally contact, you should immediately follow the emergency rescue process. Skin contact needs to be rinsed with a lot of water immediately, and eye contact should be rinsed with caution and seek medical attention in time.
Storage should not be ignored. It should be stored in a cool, dry and well-ventilated place, away from fire sources and oxidants. Because its structure contains iodine and methoxy, or it is sensitive to temperature and humidity, improper storage or deterioration will affect the use effect.
In the collection process, accurate weighing is crucial. Due to the particularity of chemical activity and reaction, the dosage deviation or reaction results are very different. Seal the container in time after taking it to prevent it from interacting with air, moisture, etc.
In addition, the experimental operation should follow the standard process. If it is used for chemical reactions, the reaction conditions, catalyst requirements, etc. should be clarified in advance, and the reaction temperature, time and other parameters should be strictly controlled to ensure that the reaction proceeds as expected, avoid accidents, and ensure the safety and effectiveness of the use process.