Varied Morphological Study of Albite Nanomaterials at Low Temperature with Co-effect of Single Walled Nanotubes and Graphene Oxide for Kevlar Fabric Strength

Abstract

he energy and environment application can be improved dramatically by efficiently consuming a large section of the solar spectrum with the benefits of material engineering. Presently scientists are exploring the wide band gap metal oxides and their nanocomposites as heterogeneous photocatalysts for effective performance in wavelengths of solar light. Increased surface area, efficient photon absorption, and reduced recombination rate can be achieved by practical structural engineering and developing efficient nanocomposites. A thorough review of recent innovations in ZnO nanostructures/nanocomposites exclusively for photocatalytic dye degradation has been conducted. The study is conducted to develop insight into the effects of ZnO nanostructure and recent advancements in ZnO nanocomposites to improve the photocatalytic activity for organic pollutants in different radiations. The scrutinized view explores the structural and material engineering can extensively boost photocatalytic performance compared to the pristine ZnO.