Biocompatible and biodegradable nanocomposite assemblies for colorimetric detection mechanism

Abstract

The recent years have witnessed a sustainable growth of nanotechnology and the nanomaterials- based products have been increasingly entering into the market covering a board spectrum of applications. The development of required properties in nanomaterials requires the scalable method for producing multifunctional hybrid nanomaterials for the improved performance and future benefits. A synthesis method with a detailed analysis has been describes here to produce a topographically controlled hybrid structure by combining 0D- 1D nanomaterials. The fullerene molecules have been inserted into carbon nanotubes to fine tune the electrical properties of materials with combined dimensionalities. The organic and inorganic sheet like materials including carbon and clay with similar 2D features have been explored for vertical co-stacking where the chemistry of interlayers id the controlling factor for the stable 3D factor geometries to obtain the multiple performance objectives in a single material system. The layered hierarchical architectures are regarded as the most promising materials for the energy storage and thermal management applications in flexible and wearable electronics. newline