| 
| 
| CAS number | 8866611-28-1 |
| Molecular formula | |
| Product name | 9-[4-(2-naphthalenyl)phenyl]-anthracene |
| Molecular Structure |
9-[4-(2-Naphthalenyl)phenyl]-Anthracene
9-[4-(2-Naphthalenyl)phenyl]-Anthracene is a novel, fluorescent dye used in a variety of applications, including fluorescence microscopy, cell and tissue imaging, spectroscopy, and fluorescence-based assays. It offers excellent performance, including high photostability, high quantum yield, and high brightness.
9-[4-(2-Naphthalenyl)phenyl]-Anthracene is a metallocene-based dye, which has a unique structure that allows it to interact strongly with specific cellular components, such as proteins and nucleic acids. This interaction enhances the dye's fluorescence and makes it useful for a variety of imaging applications.
The fluorescent properties of 9-[4-(2-Naphthalenyl)phenyl]-Anthracene are based on its ability to absorb and emit light in the visible range. The dye has an absorption maximum at 520 nm and emits light with a maximum at 580 nm. This emission peak is narrow and can be used to selectively detect low concentrations of the dye in a sample.
The photostability of 9-[4-(2-Naphthalenyl)phenyl]-Anthracene is excellent, with more than 95% of the original intensity remaining after 30 minutes of continuous illumination. This makes it ideal for long-term imaging applications.
The quantum yield of 9-[4-(2-Naphthalenyl)phenyl]-Anthracene is also very high, which gives it excellent performance in fluorescence-based assays and spectroscopy. The dye has a quantum yield of over 0.9, which is higher than many other commonly used dyes.
Finally, 9-[4-(2-Naphthalenyl)phenyl]-Anthracene has a high brightness, which makes it an excellent choice for fluorescence microscopy and other applications. The dye has a brightness of over 20,000, which is higher than many other commonly used dyes.
Overall, 9-[4-(2-Naphthalenyl)phenyl]-Anthracene is an excellent choice for a variety of applications, including fluorescence microscopy, cell and tissue imaging, spectroscopy, and fluorescence-based assays. It offers excellent performance, including high photostability, high quantum yield, and high brightness. This makes it an ideal choice for researchers who demand the highest performance from their dyes.
