Synthesis and Characterization of SnO2/ZnO nano composites doped Some Selected Conducting Polymers for Sensing Application

The proportion of SnO₂ resulted in a reduction in light transmission and an increase in the amount of energy that was lost.

The synthesis, self-assembly, and properties of ZnO nanostructures and nanocomposites were the subjects of this research. Zinc oxide nanoparticles' production, characterization, and applications are covered in detail throughout the chapters. The following is the order of this chapter: In the first part of this paper, an investigation is conducted into asymmetric ZnO nanostructures that contain an inner cavity. The freshly produced inner space can be found in the upper section of the nanostructures, which demonstrates the anisotropy of the structure. This is in contrast to the nanostructures, which have hollow interiors. During the manufacture of ZnO asymmetric nanostructures, surfactants may regulate the self-assembly of fundamental nano-crystallites and the growth of two or more crystal planes. As was mentioned.

The nanostructures of ZnO in the shape of an hourglass were produced using hydrothermal processing. Scientists were able to figure out the specific structure of ZnO subunits as well as the mechanism behind their own self-assembly by using Tween-85. The van der Waals interactions between the surface-anchored alkylated oleate groups of the subunits are what drive the hourglass structures to assemble themselves in a linear fashion. This discovery was made possible through surface-anchored van der Waals contact. During the process of disassembling the hourglass structures, this was discovered.