Understanding the fundamental chemistry of materials is crucial for their successful application in advanced technologies. N,N'-Ditridecyl-3,4,9,10-perylenetetracarboxylic Diimide, commonly known as PTCDI-C13, is a fascinating molecule with a distinct structure that underpins its utility in organic electronics. Its molecular formula, C50H62N2O4, and a molecular weight of approximately 755.04 g/mol, highlight its complex organic nature. The presence of two tridecyl chains attached to the perylene core significantly influences its solubility and processing characteristics.

As a solid material, PTCDI-C13 typically appears as a powder, and its purity is a critical factor for its performance in electronic devices. Manufacturers like NINGBO INNO PHARMCHEM CO.,LTD. focus on achieving high purity levels, often exceeding 97% through meticulous synthesis and purification processes. This high purity is essential for ensuring efficient charge transport, minimizing defects, and maximizing the lifespan of devices like OLEDs and OFETs.

The perylene tetracarboxylic diimide core is a chromophore that absorbs light and exhibits fluorescence, properties that are leveraged in various optical and electronic applications. The long alkyl chains (tridecyl groups) attached to the imide nitrogens enhance the solubility of the molecule in organic solvents, facilitating solution processing techniques such as spin coating and ink-jet printing, which are vital for low-cost manufacturing of organic electronic devices. Researchers also study how variations in these side chains can tune the material's electronic and photophysical properties.

For professionals seeking to buy PTCDI-C13, understanding these chemical and physical properties is key to selecting the right material for their specific application. The quality and consistency of this Ditridecyl Perylenetetracarboxylic Diimide are hallmarks of reliable suppliers, ensuring that innovation in organic electronics can proceed with robust foundational materials.