The farming industry, crucial for worldwide food generation and economic resilience, has progressively depended on artificial agrochemicals, especially pesticides, to control pests and ailments. Nonetheless, the widespread application of these substances has sparked significant environmental and health apprehensions, encompassing the pollution of soils, water, and air, along with pesticide remnants in food items. These challenges underscore the pressing demand for eco-friendly solutions. Sustainable chemistry, focussing on the creation of chemical products and methodologies that minimise or eradicate harmful substances, presents an encouraging approach for formulating environmentally safe pesticides. This study investigates eco-friendly chemistry methods, particularly emphasising botanical formulations and nanomaterials, as promising substitutes for conventional synthetic pesticides. Natural pesticides, originating from the bioactive substances found in flora, have shown remarkable efficacy in managing pests, all while being environmentally friendly and exhibiting reduced toxicity to non-target species. The realm of nanotechnology, especially the creation of silver nanoparticles through the utilisation of plant extracts, has significantly improved the effectiveness of pesticides by facilitating regulated release and precise targeting, thereby reducing ecological consequences. This research seeks to evaluate the efficacy of these sustainable formulations in managing pests, their capacity for biodegradation, and their safety for the environment and ecosystems. Research reveals that both plant-derived and nanoparticle-infused pesticides demonstrate comparable efficacy to traditional chemical pesticides while providing notable ecological advantages, including accelerated biodegradation and reduced toxicity to beneficial species. These findings bolster the shift towards eco-friendly farming methods, aiding in the achievement of worldwide ecological objectives and enhancing community health results.
Das et al. (Sun,) studied this question.