Biosynthesized MgO NPs and Their Environmental Applications-A Short Review

Abstract

Nanotechnology is increasingly recognized for its crucial role in addressing challenges in agriculture and environmental management, with nano-scaled materials central to this advancement. Conventional physical and chemical synthesis methods for nanomaterials often involve hazardous chemicals, posing safety and environmental risks, and are frequently cost-ineffective. This review investigates the innovative biosynthesis of magnesium oxide (MgO) nanoparticles, emphasizing their production through eco-friendly approaches involving biomolecules, plant-derived phytoconstituents, polyphenols, bacteria, algae, and fungi. We highlight how biosynthesized MgO nanoparticles exhibit exceptional properties, including unique morphology, high surface area, controlled particle size, and effective stabilization. The review also explores recent advances in their application as nanocatalysts, particularly for environmental remediation tasks such as photocatalytic degradation of dyes and removal of heavy metal ions and pesticides from contaminated environments. By underscoring the significance of green synthesis techniques, this study illustrates their potential in advancing sustainable nanotechnology solutions. It provides a promising foundation for future research in addressing pressing environmental challenges.