Abstract
This proposal presents a novel method to improve the conductivity and adaptability of conductive inks by using graphene and carbon quantum dots. The goal is to generate an ink formulation with improved mechanical flexibility, electrical conductivity, and charge transport by mixing these nanoparticles. Printability, adherence, and conductivity on a range of substrates—including paper, plastics, and textiles—will all be maximized for this formulation. To guarantee stability, rheological control, and compatibility with current printing technology, the ink will go through a thorough evaluation and characterization process. This ground-breaking conductive ink has the potential to transform a number of sectors and advance sustainable technology through its use in flexible electronics, energy storage devices, smart packaging, and other areas.
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