Product Name:N-(2-Naphthyl)biphenyl-4-amine
IUPAC Name:N-(naphthalen-2-yl)-[1,1'-biphenyl]-4-amine
Product Overview |
N-(2-Naphthyl)biphenyl-4-amine, or NBP-4A, is an organic compound used in a variety of scientific applications, from lab experiments to biochemical and physiological research. It is a heterocyclic compound composed of two benzene rings and a nitrogen atom, and it is known for its unique properties that make it a valuable tool for scientists. |
Synthesis and Application |
NBP-4A can be synthesized in a variety of ways, with the most common method being the reaction of 4-amino-2-naphthol with an aryl halide. This reaction is conducted in the presence of a base, such as sodium hydroxide, and a catalyst, such as palladium chloride. The reaction of the aryl halide with the 4-amino-2-naphthol results in the formation of NBP-4A. Other methods for synthesizing NBP-4A include the reaction of 4-amino-2-naphthol with an aryl bromide in the presence of a base, such as potassium carbonate, and a catalyst, such as palladium chloride. NBP-4A is widely used in scientific research, particularly in the fields of biochemistry and physiology. It is used as a tool to study the effects of various compounds on the body, and it is also used to study the mechanisms of action of various drugs. NBP-4A has been used in studies of the effects of hormones on the body, and it has also been used to study the effects of various drugs on the body. It has also been used in studies of the effects of various compounds on the metabolism, and it has been used to study the effects of various compounds on the immune system. |
Future Directions |
NBP-4A has a number of potential future directions. One potential direction is to further investigate its protective effects on the brain, as well as its anti-inflammatory and antioxidant effects. Additionally, further research could be conducted on its effects on the cardiovascular system, the liver, and the kidneys. Further research could also be conducted on its potential interactions with other compounds, as well as its potential toxicity in high doses. Finally, further research could be conducted on its potential applications in drug development, as well as its potential applications in the treatment of various diseases and conditions. |