Comparative analysis of cobalt oxide nanoparticles from distinct green reducing agents through eco friendly synthesis method and its applications

Abstract

Cobalt(II,III) Oxide (Co3O4) is a very desirable transition metal oxide newlinefor use in a variety of scientific and industrial disciplines, including gas sensors, newlinemagnetic materials, pigments, catalysts, electrochromic devices, electrode newlinematerials for secondary batteries, antimicrobial applications and so on. These newlinenanoparticles have a wide range of uses due to their quantum effects, huge newlinesurface area, excellent corrosion resistance and Cobalt(II,III) oxide oxidation newlinestates. Cobalt(II,III) oxide nanoparticles have excellent optical, electrical and newlinemagnetic properties that make them highly attractive and draw extra attention. newlineSize, shape and structure of Cobalt(II,III) oxide nanoparticles are the sole newlinedeterminants of their physical properties. The fabrication of Cobalt(II,III) oxide newlinenanopowder using physical, chemical and other standard methods has a number newlineof negative effects, including critical temperature and pressure conditions, newlineexpensive and poisonous chemical compounds, a long reflux time of reaction, newlinehighly toxic derivatives, etc. Because of its non-hazardous, environmentally newlineacceptable and economically advantageous synthesis techniques, bio integration newlineof metal oxide nanoparticles has seduced the entire global population away from newlinepotentially dangerous operations. newline