BIO-INSPIRED PROCESSING OF NANOMATERIALS: ADVANCING ENVIRONMENTAL APPLICATIONS THROUGH SUSTAINABLE INNOVATION.

Bio-inspired nanomaterial synthesis has emerged as a revolutionary approach, mimicking natural biological processes to develop environmentally sustainable and highly functional materials. This review explores the principles, methodologies, and applications of bio-inspired nanomaterials, focusing on their role in addressing critical environmental challenges. Key synthesis methods employing microorganisms, plants, and enzymes are discussed, highlighting their eco-friendly and cost-effective nature. The review categorizes nanomaterials, including metallic, carbon-based, and polymer-based types, and delves into their applications in water purification, air pollution control, soil remediation, and renewable energy. It also addresses challenges such as scalability, stability, and economic feasibility while emphasizing future directions like AI integration, zero-waste processes, and multifunctional material design. By bridging biology and nanotechnology, bio-inspired nanomaterials present a transformative solution for achieving sustainable innovation and environmental remediation. [ABSTRACT FROM AUTHOR]