Orasugh, JTMohanty, AMalakar, ABose, SRay, Suprakas S2025-08-252025-08-252025-081616-301X1616-3028https://doi.org/10.1002/adfm.202513726http://hdl.handle.net/10204/14381Metamaterials (MMs) are precisely designed composites with electromagnetic properties not found in natural materials, emerging as a groundbreaking technology for advanced stealth applications. This review offers a thorough synthesis of recent advancements in MM design, highlighting their exceptional capability to manipulate electromagnetic waves across microwave, infrared, and visible spectral ranges. The core principles behind MM-enabled stealth, such as negative refractive index, cloaking, and wavefront shaping are explored, showcasing their effectiveness in significantly lowering radar cross-section and thermal signatures, thus improving concealment. A detailed evaluation of nanoscale synthesis techniques, using both inorganic and organic materials, underscores the crucial importance of precise structural control to achieve these sophisticated functionalities. This work provides a comprehensive analysis of MM applications within military and aerospace stealth contexts, while also addressing contemporary challenges related to scalability, cost-effectiveness, and environmental stability. Additionally, it presents a balanced evaluation of the technology's current maturity and its prospects for near-future deployment. Beyond strategic defense uses, the transformative potential of MMs in civilian fields like transportation and communication is examined, highlighting their extensive influence on the progress of next-generation technologies. This review outlines a clear path for future research, highlighting the crucial role of MMs in advancing electromagnetic control and stealth.FulltextenMetamaterialsMMsStealth technologyAerospace operationsArticlen/a