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Fluorescent Dyes
BODIPY
Boron, [3,5-dimethyl-2-[[3-methyl-5-[(1E)-2-[4-(2-propyn-1-yloxy)phenyl]ethenyl]-2H-pyrrol-2-ylidene-κN]phenylmethyl]-1H-pyrrolato-κN]difluoro-, (T-4)-

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Boron, [3,5-dimethyl-2-[[3-methyl-5-[(1E)-2-[4-(2-propyn-1-yloxy)phenyl]ethenyl]-2H-pyrrol-2-ylidene-κN]phenylmethyl]-1H-pyrrolato-κN]difluoro-, (T-4)-

Boron, [3,5-dimethyl-2-[[3-methyl-5-[(1E)-2-[4-(2-propyn-1-yloxy)phenyl]ethenyl]-2H-pyrrol-2-ylidene-κN]phenylmethyl]-1H-pyrrolato-κN]difluoro-, (T-4)- | CAS 1337969-88-6

Catalog Number	F01-0086
Category	BODIPY
Molecular Formula	C29H25BF2N2O
Molecular Weight	466.338

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* Please be kindly noted products are not for therapeutic use. We do not sell to patients.

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Product Introduction

BODIPY dyes are used to generate fluorescent conjugates of proteins, nucleotides, oligonucleotides and dextrans, as well as to prepare fluorescent enzyme substrates, fatty acids, phospholipids, lipopolysaccharides, receptor ligands and polystyrene microspheres.

Product Specification
Application

Excitation	649
Emission	667
Storage	Store at -20°C

The intricate boron compound referred to as [3,5-dimethyl-2-[[3-methyl-5-[(1E)-2-[4-(2-propyn-1-yloxy)phenyl]ethenyl]-2H-pyrrol-2-ylidene-κN]phenylmethyl]-1H-pyrrolato-κN]difluoro- (T-4) serves various purposes in the optical and electronic realms.

Optoelectronics: Delving into the world of advanced optoelectronic devices, this boron compound emerges as a key player due to its exceptional luminescent characteristics. Its incorporation into organic light-emitting diodes (OLEDs) enriches color purity and efficiency, culminating in the creation of more vibrant displays for consumer electronics. This compound stands out as a crucial component in pushing the boundaries of visual technology.

Photovoltaics: Within the domain of solar power, this compound contributes to the innovation of organic photovoltaic cells, ushering in a new era of sustainable energy solutions. Its remarkable ability to effectively capture and convert sunlight into electrical power facilitates the development of lightweight and flexible solar panels. This breakthrough in solar technology offers heightened adaptability for energy-harvesting applications, particularly in scenarios where conventional panels fall short.

Chemical Sensors: Witness the application of this boron compound in crafting highly sensitive chemical sensors designed to fluoresce in response to specific analytes. These sensors find utility in detecting environmental pollutants and monitoring gas concentrations in industrial environments. Their precision and selectivity render them indispensable tools for conducting real-time on-site chemical analyses, contributing to enhanced safety and environmental monitoring practices.

Fluorescent Probes: Researchers harness the unique fluorescence properties of this compound as a fluorescent probe in biological imaging and sensing tasks. Its distinct fluorescence traits enable the tracking of intricate biological processes and the visualization of cellular interactions. By tagging biomolecules with this compound, scientists unlock insights into complex biological mechanisms and disease pathologies, shedding light on the intricacies of life sciences.