Product Name:3-fluoro-4-[5-methyl-2-(propan-2-yl)phenoxy]aniline

IUPAC Name:3-fluoro-4-[5-methyl-2-(propan-2-yl)phenoxy]aniline

CAS:946699-16-7
Molecular Formula:C16H18FNO
Purity:95%+
Catalog Number:CM375661
Molecular Weight:259.32

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Product Details

CAS NO:946699-16-7
Molecular Formula:C16H18FNO
Melting Point:-
Smiles Code:CC(C)C1=C(OC2=C(F)C=C(N)C=C2)C=C(C)C=C1
Density:
Catalog Number:CM375661
Molecular Weight:259.32
Boiling Point:
MDL No:
Storage:

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Product Other Information

Product Overview 3-Fluoro-4-(2-isopropyl-5-methylphenoxy)aniline (3F4IPMPA) is an important organic compound that has a wide range of applications in scientific research. It is a fluorinated aniline derivative that has been used in various studies related to biochemistry, physiology, and pharmacology. It is a useful reagent for the synthesis of other compounds and has been used in the development of new drugs.
Physical Properties pKa:3.77±0.10(Most Basic Temp: 25 °C)
Chemical Properties The main advantage of using 3-Fluoro-4-(2-isopropyl-5-methylphenoxy)aniline in lab experiments is that it is a relatively inexpensive reagent that can be easily synthesized from commercially available compounds.However,the compound is not very stable and can degrade over time. Additionally, the mechanism of action of the compound is not fully understood, so it may have unexpected effects in some experiments.
Synthesis and Application 3-Fluoro-4-(2-isopropyl-5-methylphenoxy)aniline is a useful reagent for the synthesis of other compounds, and it has been used in the development of new drugs. It has been used in studies related to biochemistry, physiology, and pharmacology. For example, it has been used to study the effects of the compound on the metabolism of cholesterol and fatty acids, as well as its role in the regulation of cell signaling pathways. It has also been used to study the effects of the compound on the expression of genes involved in the development of cancer. Additionally, 3-Fluoro-4-(2-isopropyl-5-methylphenoxy)aniline has been used to study the effects of the compound on the activity of enzymes involved in the metabolism of drugs.
Future Directions For example, further research could be done to better understand the mechanism of action of the compound, as well as its biochemical and physiological effects. Additionally, further research could be done to develop new applications for the compound, such as in the development of new drugs. Additionally, further research could be done to improve the stability of the compound, as well as to develop new synthesis methods. Finally, further research could be done to investigate the potential toxicity of the compound.