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NIR-BODIPYs-free acid | CAS 1996627-88-3
| Catalog Number | F01-0129 |
| Category | BODIPY |
| Molecular Formula | C34H27BF2N2O2 |
| Molecular Weight | 544.408 |
* Please be kindly noted products are not for therapeutic use. We do not sell to patients.
Product Introduction
NIR-BODIPYs-free acid is a near-infrared boron-dipyrromethene dye with high quantum yield. It’s suitable for bioimaging and photothermal applications.
Product Specification
Application
| Excitation | 550 |
| Emission | 570 |
| Storage | Store at -20°C |
NIR-BODIPYs-free acid, a unique fluorescent dye with specialized characteristics, finds diverse applications in the scientific realm.
Medical Imaging: Delving into the world of medical imaging, NIR-BODIPYs-free acid emerges as a crucial player. Its near-infrared light emission capability enables deep tissue penetration with minimal background fluorescence, making it a top choice for non-invasive imaging modalities such as optical tumor imaging. Researchers harness this dye to intensify imaging contrast, thereby refining diagnostics and monitoring disease progression with precision.
Biochemical Assays: Within the domain of biochemical assays, NIR-BODIPYs-free acid stands out as a pivotal molecular probe. Its robust fluorescent signal powers the detection and measurement of a myriad of biological molecules, facilitating the study of intricate protein interactions, enzyme activities, and small molecule dynamics.
Photodynamic Therapy Research: As the spotlight shifts to photodynamic therapy research, this dye takes center stage as a potent photosensitizer. Activated by near-infrared light, it triggers the production of reactive oxygen species capable of inducing targeted cell death in cancerous tissues. Researchers delve into these mechanisms to forge more potent and precise photodynamic therapies, offering a less invasive route for combating cancer.
Molecular Tracking: NIR-BODIPYs-free acid facilitates the real-time tracking of molecular and cellular movements within live organisms, enabling in-depth exploration of processes like cell migration, drug delivery, and organ targeting. The dye’s ability to capture these dynamic biological events in motion propels advancements in cellular and molecular biology.
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