A green synthetic route to phenolics fabricated magnetite nanoparticles from coconut husk extract: Implications to treat metal contaminated water and heavy metal stress in Oryza sativa L.

Abstract

Iron oxide nanoparticles are biocompatible. Therefore these particles are in demand for environmental cleanup. In the present study, semicrystalline magnetite nanoparticles synthesized by mixing equal volume of 10.0 mM ferric chloride solution and coconut husk extract (10.0 g L−1) at room temperature. Phenolics in the husk extract fabricated onto nanoparticles. These particles found to efficiently adsorb Ca and Cd from aqueous media. Kinetic studies indicated metal adsorption was a combined effect of both physical and chemical processes. Equilibrium studies showed maximum adsorption capacity of particles for Ca (13.7 mg g−1) and Cd (9.6 mg g−1). Calcium and Cd adsorption fitted well to Langmuir and Freundlich isotherm respectively. Both Ca and Cd had maximum adsorption at pH 6.0 and temperature 30.0 °C. Amendment of the nanoparticles (0.5 mg g−1 sand) enhanced Fe accumulation in rice plants and enabled Ca as well as Cd tolerance. Plant growth promoting effects of the nanoparticles reflected as an increase of biomass, the quantum yield of photochemistry, and chlorophyll content. Thus it is concluded that nanoparticle produced in the study is an eco-friendly material for environmental remediation.