cas 1352395-04-0|| where to buy 4-Chloro-5-methoxy-1H-indazole

Название продукции:4-Chloro-5-methoxy-1H-indazole

IUPAC Name:4-chloro-5-methoxy-1H-indazole

: CAS：1352395-04-0; Молекулярная формула：C8H7ClN2O; Чистота：95%

: Номер в каталоге：CM233927; Молекулярная масса：182.61

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CM233927-1g	in stock	ƿǙƿ

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Информация о продукции

: Номер CAS:1352395-04-0; Молекулярная формула:C8H7ClN2O; Точка плавления:-; Smiles-код:COC1=C(Cl)C2=C(NN=C2)C=C1; Плотность:

: Номер в каталоге:CM233927; Молекулярная масса:182.61; Точка кипения:; Номер Mdl:MFCD20923437; Хранение:

Category Infos

: Indazoles; Indazoles are a class of organic heterocyclic compounds, also known as 1,2-diazaindene and benzopyrazole. Indazole is a good bioisomer of phenol, which is more lipophilic than phenol and less prone to phase I and II metabolism. Indazole derivatives have a wide range of biological activities, and it has been confirmed that indazole compounds have anti-tumor, analgesic, anti-inflammatory and other drug activities. Anticancer is the most important application field of indazole drugs. Renal cell carcinoma, solid tumor, nausea and vomiting caused by chemotherapy and leukemia are the main indications of this structural backbone drug.

Product Other Information

Product Overview	4-Chloro-5-methoxy-1H-indazole, commonly referred to as CMIT, is an organic compound belonging to the indazole family of molecules. It is a derivative of indazole and is composed of a 5-methoxy-1H-indazole ring system with a chlorine atom attached at the fourth position.
Physical Properties	CMIT is a colorless crystalline solid.It is not soluble in water, and its solubility in organic solvents is limited.
Chemical Properties	CMIT is a useful compound for laboratory experiments due to its relatively low cost, ease of synthesis, and stability. It is not very stable in the presence of light, heat, or acids.
Synthesis and Application	CMIT has been studied extensively in scientific research, with its applications ranging from biochemistry and pharmacology to materials science. For example, it has been used as a building block for the synthesis of various heterocyclic compounds, and it has also been used as an intermediate in the synthesis of various drugs. In addition, CMIT has been studied as a potential antifungal and antibacterial agent, and has been used in the synthesis of other compounds with similar properties.
Future Directions	These include further investigation into its mechanism of action, its potential as an antimicrobial or antifungal agent, and its potential as a drug delivery system. In addition, CMIT could be used as a building block for the synthesis of novel heterocyclic compounds, which could have applications in materials science and pharmaceuticals. Finally, further research could be conducted into its potential use as an antioxidant or anti-inflammatory agent.