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Fluorescent Dyes
BODIPY
2,6-Diiodo-1,7-dimethyl-3,5-diphenylethenyl-8-phenyl-4,4-difluoroboradiazasindacene

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2,6-Diiodo-1,7-dimethyl-3,5-diphenylethenyl-8-phenyl-4,4-difluoroboradiazasindacene

2,6-Diiodo-1,7-dimethyl-3,5-diphenylethenyl-8-phenyl-4,4-difluoroboradiazasindacene | CAS 1437797-58-4

Catalog Number	F01-0078
Category	BODIPY
Molecular Formula	C33H25BF2I2N2
Molecular Weight	752.192

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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

Heavily conjugated iodo-BODIPY enabling efficient ISC and ROS production. Suitable for PDT research and advanced photonics.

Product Specification
Application

Excitation	649
Emission	667
Storage	Store at -20°C

2,6-Diiodo-1,7-dimethyl-3,5-diphenylethenyl-8-phenyl-4,4-difluoroboradiazasindacene, commonly known as a difluoroboron compound, serves as a versatile fluorescent dye with a wide range of scientific applications.

Fluorescence Imaging: Widely employed in fluorescence imaging, this compound enables researchers to visualize and monitor biomolecules within cells and tissues. Its distinctive fluorescent characteristics make it particularly valuable for live-cell imaging, delivering sharp contrast and enduring signals. This empowers scientists to meticulously observe dynamic biological processes ranging from protein localization to intricate cellular interactions.

Molecular Probes: Functioning as a molecular probe, this compound can selectively bind to specific biomolecules, facilitating their identification and quantification in complex mixtures. It finds utility in biochemical assays requiring precise detection of proteins, nucleic acids, or small molecules. The compound's sensitivity and specificity render it an ideal tool for diagnostics and high-throughput screening applications.

Chemical Sensor Design: Leveraging the compound's ability to alter its fluorescence in response to environmental cues, it becomes a valuable component in chemical sensors. These sensors play a crucial role in detecting ions or pH variations, offering avenues for environmental monitoring and medical diagnostics. Such sensors are essential for real-time identification of analytes in diverse biological and industrial environments.

Optical Material Development: Owing to its robust and enduring luminescence, this compound is being explored in the realm of optical material development, including organic light-emitting diodes (OLEDs). It contributes to enhancing the performance of these devices, resulting in brighter and more resilient lighting solutions. This advancement holds significant promise for improving display technologies and promoting energy-efficient lighting solutions.