5,10,15,20-(tetra-4-sulfonatophenyl)porphyrin tetrasodium | CAS 39174-47-5

Catalog Number	A14-0046
Category	Calcium, Chloride and Other indicators
Molecular Formula	C44H42N8O12S4
Molecular Weight	1003.13

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Product Introduction

20-(Tetra-4-sulfonatophenyl)porphyrin tetrasodium is a remarkable biomedical compound. With its exceptional light absorption properties, it has emerged as a promising photosensitizer in the realm of cancer therapy. Displaying an intriguing structural complexity, this compound possesses the potential to facilitate targeted drug delivery within tumor tissues. Moreover, its unique attributes enable enhanced diagnostic imaging capabilities, thereby paving the way for improved detection and management of debilitating conditions such as Alzheimer's and Parkinson's.

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Store at -20°C

5,10,15,20-(tetra-4-sulfonatophenyl)porphyrin tetrasodium, commonly known as TSPP, is a water-soluble porphyrin with diverse applications in scientific research and industry. Here are four significant applications of TSPP:

Photodynamic Therapy: A cutting-edge approach, TSPP serves as a photosensitizer in photodynamic therapy (PDT), a groundbreaking treatment modality for combating cancers and microbial infections. Upon exposure to light, TSPP triggers the generation of reactive oxygen species capable of selectively obliterating malignant cells or pathogens. Its water solubility and singlet oxygen-producing abilities render it a potent agent in the realm of PDT applications.

Biochemical Sensing: At the forefront of sensor development, TSPP plays a pivotal role in crafting optical and electrochemical sensors due to its robust capacity to form complexes with diverse ions and molecules. Employed in detecting substances like metal ions and biological molecules such as proteins and DNA, these sensors play a critical role in environmental monitoring, medical diagnostics, and biochemical research.

Molecular Electronics: Spearheading advancements in molecular electronics, TSPP is instrumental in fabricating nanoscale electronic devices, leveraging its conductive nature and self-assembling properties. Integrated into organic semiconductors and light-harvesting systems, TSPP fuels innovations like solar cells and organic light-emitting diodes (OLEDs). Its involvement in electron transfer processes underpins the evolution of these cutting-edge technologies, pushing the boundaries of what’s possible in electronic engineering.

Catalysis: Serving as a versatile catalyst across a spectrum of chemical reactions, including oxidation and electron transfer processes, TSPP’s stable porphyrin structure makes it an invaluable asset in industrial and environmental chemistry. Researchers harness TSPP to explore and engineer new catalytic systems for tasks like pollutant degradation and renewable energy production, contributing to sustainable solutions for pressing global challenges.