Ecofriendly sustainable synthetized nano-composite for removal of heavy metals from aquatic environment

The toxicity of heavy metals in the aquatic environment is a serious challenge to the global community. Even at low concentrations, heavy metals have a cumulatively destructive effect on living organisms in the aquatic environment. Biomass wastes have been investigated for heavy metals removal in the published literature; however, the low performance and capacity of the biomass represents a drawback towards effective application. Therefore, in this study, biomass waste such as corn leaves that have low cost is investigated as a precursor for eco-friendly sustainable nanostructured composite. In this research, several experiments have been conducted focusing on upgrading the capacity of the bioresource for removing heavy metals from the aquatic environment. In addition to low-cost biomass material, nanomaterials such as zinc oxide represents an attractive combination for effective removing heavy metals such as iron and nickel ions. Characterization of the synthesized composite material was conducted using XRD-FESEM-mapping and EDX-HRTEM and SAED-Zeta size and Zeta potential. Moreover, studying the efficiency of synthesized nano-composite for heavy metals ions adsorption of iron and nickel ions shows an outstanding increase of performance. The results suggest that adding nanomaterial to biomass matter and obtaining a composite at nanosize, enables the increase of the adsorption efficiency of heavy metals.

Automated summary

The toxicity of heavy metals in the aquatic environment poses a serious challenge globally. This study investigates the use of low-cost biomass waste, such as corn leaves, as a precursor for eco-friendly nanostructured composite aimed at improving heavy metals removal. Results show that the addition of nanomaterials to biomass significantly enhances the adsorption efficiency of heavy metals.