2-[(imidazo[1,2-a]pyridin-2-ylmethoxy)methyl]-1,3-benzothiazole

2-%5B%28imidazo%5B1%2C2-a%5Dpyridin-2-ylmethoxy%29methyl%5D-1%2C3-benzothiazole is an organic compound. This compound has a wide range of uses in the field of medical research.
In the course of viewing the development of medicine, many compounds have been carefully investigated to find their potential to treat diseases. 2-%5B%28imidazo%5B1%2C2-a%5Dpyridin-2-ylmethoxy%29methyl%5D-1%2C3-benzothiazole may have unique chemical structures and properties, and can interact with specific targets in organisms.
In the field of pharmaceutical chemistry, scientists hope to modify and optimize its structure to develop new drugs with better curative effect and less side effects. It may be able to target specific diseases, such as cancer, neurological diseases, etc., to explore its potential therapeutic effect. This compound may regulate key signaling pathways in organisms and have a positive impact on the disease process.
Furthermore, in pharmacological research, it is also crucial to explore its pharmacokinetic properties. Processes such as absorption, distribution, metabolism and excretion are all related to whether it can effectively play a role. After in-depth study of the behavior of this compound in the body, it can provide an important basis for the design of drug dosage forms and the formulation of drug administration regimens.
In short, 2-%5B%28imidazo%5B1%2C2-a%5Dpyridin-2-ylmethoxy%29methyl%5D-1%2C3-benzothiazole has considerable research value and application potential in the field of medicine, bringing many possibilities for the creation of new drugs.

2-%5B%28imidazo%5B1%2C2-a%5Dpyridin-2-ylmethoxy%29methyl%5D-1%2C3-benzothiazole is an organic compound, and its synthesis method is as follows:
The starting material is selected from the compound containing benzothiazole structure and imidazolopyridine structure. First, the compound containing benzothiazole structure is halogenated, and in a suitable solvent, such as N, N-dimethylformamide (DMF), a halogenating agent, such as N-bromosuccinimide (NBS), is added. Under the action of light or initiator, the halogen atom is introduced at a specific position of benzothiazole.
At the same time, the compound containing imidazolopyridine structure is hydroxylated, and in a basic environment, such as sodium hydroxide aqueous solution, it is properly heated to generate a hydroxyl group at a specific position of imidazolopyridine.
Subsequently, the above-mentioned halogenated benzothiazole compound was etherified with the hydroxylated imidazolopyridine compound. With potassium carbonate as base and acetonitrile as solvent, heating and refluxing promoted the nucleophilic substitution reaction of the two to generate the target product 2-%5B%28imidazo%5B1%2C2-a%5Dpyridin-2-ylmethoxy%29methyl%5D-1%2C3-benzothiazole. After the reaction, the product was purified by extraction, column chromatography and other separation methods to obtain a pure target compound. The whole synthesis process requires strict control of the reaction conditions, paying attention to the proportion of raw materials, temperature, reaction time and other factors to improve the yield and purity of the product.

2-%5B%28imidazo%5B1%2C2-a%5Dpyridin-2-ylmethoxy%29methyl%5D-1%2C3-benzothiazole is an organic compound, its physical and chemical properties are as follows:
The properties of this compound may be solid, but due to the limitation of relevant data, it is difficult to determine its specific appearance. Looking at its molecular structure, it is connected by benzothiazole and imidazolopyridine through methylene and methoxy groups. Such a unique structure endows it with special physical and chemical properties.
When it comes to solubility, because the molecule contains benzothiazole and imidazolopyridine aromatic ring, it has a certain hydrophobicity, solubility in water or low; but because its structure contains polar group methoxy group, or it has a certain solubility in some polar organic solvents, such as methanol, ethanol, and dichloromethane.
Determination of melting point is very important for identifying the purity of this compound and understanding its thermal stability. Although there is no exact data, it can be speculated from similar structural compounds that their melting point or due to intermolecular interactions, such as hydrogen bonds, van der Waals forces, etc., is in a certain temperature range. Nitrogen and oxygen atoms in the molecular structure may participate in the formation of intermolecular hydrogen bonds, resulting in an increase in the melting point.
In terms of stability, the stability of the compound to heat, light and air is closely related to the structure. The structure of the aromatic ring is relatively stable, but the nitrogen atoms on the heterocyclic ring may give the compound a certain reactivity. In air, it may slowly deteriorate due to oxidation; under light, it may cause structural changes due to luminescent chemical reactions; at high temperatures, decomposition reactions may also occur. The physical and chemical properties of
2-%5B%28imidazo%5B1%2C2-a%5Dpyridin-2-ylmethoxy%29methyl%5D-1%2C3-benzothiazole are determined by its unique structure. Although the specific data is difficult to give accurately due to limited data, it can be reasonably speculated based on compounds with similar structures.

I don't know the market price of what you said "2 - [ (imidazo [1,2 - a] pyridin - 2 - ylmethoxy) methyl] - 1,3 - benzothiazole". This is a rather professional and uncommon chemical substance, and its price often varies depending on various factors such as purity, yield, market demand, and difficulty in preparation.
If it is a common chemical raw material, it is available in the general chemical market or easily available, and the price depends on the quantity. If it is a fine chemical or a pharmaceutical intermediate, its preparation process or complexity requires high purity and high price or high price.
Furthermore, the prices quoted by different suppliers are also different, or due to cost differences and business strategies. And market conditions are constantly changing, and prices fluctuate. To know the exact price, consult chemical product suppliers, chemical trading platforms, or consult professional chemical information to get a more accurate price.

2-%5B%28imidazo%5B1%2C2-a%5Dpyridin-2-ylmethoxy%29methyl%5D-1%2C3-benzothiazole is an organic compound. However, when Tiangong Kaiwu was written, these compounds were not known to the world, and their safety and toxicity were not reported in the book.
In today's world, to explore the safety and toxicity of this compound, it is necessary to rely on modern scientific experiments and research. To understand its safety, it is necessary to consider its impact on organisms, such as cells and experimental animals. If it does not cause cell lesions or death in cell experiments, or does not cause significant health problems in animal experiments, such as organ damage, physiological abnormalities, etc., it can be regarded as relatively safe under specific conditions.
When it comes to toxicity, it is necessary to consider its acute toxicity and chronic toxicity. Acute toxicity measures the harm of large amounts of exposure to organisms in a short period of time, such as causing severe vomiting, convulsions, and death. Chronic toxicity measures whether long-term exposure to small doses causes chronic diseases such as cancer and reproductive disorders in organisms.
Generally speaking, researchers will use a variety of experimental models to explore its mechanism of action and potential effects at the molecular, cellular, and animal levels to comprehensively evaluate the safety and toxicity of this compound, providing a solid basis for its application in medicine, chemical industry, and other fields. Although this compound is not covered in Tiangong Kaiwu, modern scientific methods are sufficient to clarify its characteristics and ensure its safe application.