Pyrromethene 580 | CAS 151486-56-5

Catalog Number	F01-0159
Category	BODIPY
Molecular Formula	C22H33BF2N2
Molecular Weight	374.327

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Product Introduction

Pyrromethene 580 is a fluorescent organic dye widely used in biomedicine and research applications. It is commonly utilized as a fluorescent marker for biological imaging, especially in the field of cancer research. Pyrromethene 580 offers high photostability and brightness, making it suitable for various imaging techniques and diagnostics in the biomedical industry.

Chemical Information
Application

Synonyms	1,3,5,7,8-pentamethyl-2,6-di-n-butylpyrromethene; [[(4-Butyl-3,5-dimethyl-1H-pyrrol-2-yl)(4-butyl-3,5-dimethyl-2H-pyrrol-2-ylidene)methyl]methane](difluoroborane)
Canonical SMILES	[B-]1(N2C(=C(C(=C2C(=C3[N+]1=C(C(=C3C)CCCC)C)C)C)CCCC)C)(F)F
InChI	InChI=1S/C22H33BF2N2/c1-8-10-12-19-14(3)21-16(5)22-15(4)20(13-11-9-2)18(7)27(22)23(24,25)26(21)17(19)6/h8-13H2,1-7H3
InChIKey	XWUUMDJCWNZHAZ-UHFFFAOYSA-N

Pyrromethene 580 is a fluorescent dye known for its high fluorescence quantum yield and efficiency in a variety of applications. Here are some key applications of Pyrromethene 580:

Laser Dyes: Pyrromethene 580 is commonly used as a laser dye in dye lasers due to its strong fluorescence and excellent photostability. It acts as a gain medium, allowing for the amplification of light in specific wavelength ranges. This makes it ideal for applications requiring stable and high-intensity laser outputs, such as in scientific research and industrial processing.

Optical Research: In optical research, Pyrromethene 580 is utilized in the development and testing of optical sensors and devices. Its fluorescence properties allow researchers to study the interaction of light with various materials and coatings. By incorporating Pyrromethene 580, scientists can enhance the sensitivity and accuracy of optical detection methods.

Biological Imaging: Pyrromethene 580 is used in fluorescence microscopy for biological imaging applications. The dye’s bright fluorescence aids in visualizing cellular structures and processes in live cells. Its compatibility with biomolecules allows it to be conjugated with proteins or nucleic acids for specific cell labeling and tracking.

Photonics: In the field of photonics, Pyrromethene 580 is employed in studying photonic crystals and waveguide materials. Its fluorescence characteristics make it effective for inspecting light propagation and photonic bandgap behaviors. These insights contribute to the advancement of photonic devices and technologies, including optical fibers and light-emitting diodes.