Abstract
With the rising need for sustainable agricultural practices, nano-fertilizers have emerged as an innovative alternative to traditional fertilizers. These advanced fertilizers enhance nutrient use efficiency, promote crop growth, and minimize environmental harm by enabling precise nutrient delivery. This review evaluates various nano-fertilizer application techniques and their influence on plant growth, yield, and quality. Additionally, it explores their interactions with soil composition and microbial communities, emphasizing their role in enzymatic activity and nutrient cycling. While nano-fertilizers offer significant benefits, challenges such as proper dosage regulation, potential toxicity, and long-term ecological effects necessitate further research. This study highlights recent advancements in nano-fertilizer technology and underscores the importance of an integrated approach to optimize agricultural productivity while preserving soil health and environmental sustainability.