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Fluorescent Dyes
BODIPY
Boron, [N,N-dimethyl-4-[(3-methyl-2H-dibenz[E,G]isoindol-1-yl-κN)(3-methyl-1H-dibenz[E,G]isoindol-1-ylidene-κN)methyl]benzenaminato]difluoro-, (T-4)-

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Boron, [N,N-dimethyl-4-[(3-methyl-2H-dibenz[E,G]isoindol-1-yl-κN)(3-methyl-1H-dibenz[E,G]isoindol-1-ylidene-κN)methyl]benzenaminato]difluoro-, (T-4)-

Boron, [N,N-dimethyl-4-[(3-methyl-2H-dibenz[E,G]isoindol-1-yl-κN)(3-methyl-1H-dibenz[E,G]isoindol-1-ylidene-κN)methyl]benzenaminato]difluoro-, (T-4)- | CAS 1020539-63-2

Catalog Number	F01-0073
Category	BODIPY
Molecular Formula	C43H32BF2N3
Molecular Weight	639.555

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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	555
Emission	570
Storage	Store at -20°C

Boron [NN-dimethyl-4-[(3-methyl-2H-dibenz[EG]isoindol-1-yl-κN)(3-methyl-1H-dibenz[EG]isoindol-1-ylidene-κN)methyl]benzenaminato]difluoro- (T-4)- is a specialized chemical compound that finds diverse applications in material science and chemical research.

Organic Light-Emitting Diodes (OLEDs): Integrating this boron-based compound into OLED production elevates display and lighting technologies. Its exceptional photophysical attributes, like elevated fluorescence and stability, elevate the performance and longevity of OLED devices.

Fluorescence Sensing: Enriched with potent fluorescence, this compound emerges as a prime candidate for deployment in fluorescence sensors. Its capabilities enable the detection of specific ions, molecules, or environmental shifts through the emission of a quantifiable optical signal. This application holds particular significance in environmental surveillance, chemical analysis, and medical diagnostics, showcasing its versatility in various fields of study and practice.

Photodynamic Therapy (PDT): In the realm of biomedical applications, derivatives of this boron compound are being explored for their potential in photodynamic therapy. Harnessing its light-triggered properties, the compound can unleash reactive oxygen species that target and eliminate cancerous cells. The therapy's precision and reduced adverse effects, in comparison to conventional treatments, position it as a promising avenue in cancer management, offering hope for improved patient outcomes.

Chemical Research: Serving as a pivotal model in the realm of electron-rich conjugated systems within supramolecular chemistry, this boron compound sparks curiosity among researchers. Delving into its interactions with other molecules unveils valuable insights for fabricating groundbreaking materials with distinct optoelectronic attributes. Such investigations lay the groundwork for the advancement of materials used in cutting-edge fields like nanotechnology and catalysis.