製品名:9-ethynylphenanthrene

IUPAC Name:9-ethynylphenanthrene

CAS番号:32870-98-7
分子式:C16H10
純度:95%+
カタログ番号:CM390988
分子量:202.26

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製品詳細

CAS番号:32870-98-7
分子式:C16H10
融点:-
SMILESコード:C#CC1=CC2=CC=CC=C2C2=CC=CC=C12
密度:
カタログ番号:CM390988
分子量:202.26
沸点:
MDL番号:
保管方法:

Category Infos

Phenanthrenes
Phenanthrene is a crystalline tricyclic aromatic hydrocarbon with the molecular formula C14H10. The centers of the three rings of phenanthrene are not in a straight line and are the isomers of anthracene. In medicine, phenanthrene can synthesize alkaloids. Although phenanthrene is considered a relatively small natural product, discovering new phenanthrene derivatives and evaluating their potential biological activity has become of great interest to many research groups worldwide.

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Product Other Information

Product Overview 9-Ethynylphenanthrene (9-EP) is a polyaromatic hydrocarbon (PAH) that has been studied extensively in the past few decades due to its potential applications in scientific research and its potential health effects. 
Synthesis Method 9-Ethynylphenanthrene is synthesized through the reaction of phenanthrene and ethyne in the presence of a catalyst, such as palladium on carbon. The reaction takes place at a temperature of 150-200°C and a pressure of approximately 5-10 atmospheres. The reaction is conducted in a sealed vessel, and the resulting product is purified by column chromatography.
Chemical Properties 9-Ethynylphenanthrene is also relatively easy to synthesize, and it is relatively stable in solution. However, 9-Ethynylphenanthrene is not as potent as other PAHs, which can limit its usefulness in certain experiments.
Synthesis and Application 9-Ethynylphenanthrene has been used to study the mechanisms of action of various PAHs, as well as to investigate the biochemical and physiological effects of PAHs on living organisms. 9-Ethynylphenanthrene has also been used to study the effects of PAHs on gene expression and the development of cancer.
Future Directions The future of 9-Ethynylphenanthrene research is promising, as there are still many unanswered questions about the biochemical and physiological effects of 9-Ethynylphenanthrene. Future research should focus on identifying the mechanism of action of 9-Ethynylphenanthrene, as well as further investigating the biochemical and physiological effects of 9-Ethynylphenanthrene. Additionally, further research should be conducted to determine the potential applications of 9-Ethynylphenanthrene in the medical field.