DOI: https://doi.org/10.36347/sajb.2025.v13i06.012

Pages: 751-763

Nanomaterials have gained remarkable attention in modern chemistry due to their unique size-dependent properties, large surface area, and enhanced reactivity, making them highly suitable for a wide range of advanced applications. This article presents a comprehensive review of the recent developments and applications of nanomaterials in the fields of catalysis, energy storage (with a special focus on lithium-ion batteries), and biomedicine. In catalysis, nanomaterials such as metal nanoparticles, nanostructured oxides, and carbon-based materials have shown exceptional activity and selectivity, offering improved performance in processes like photocatalysis, environmental cleanup, and industrial reactions. In energy storage, nanomaterials have significantly advanced the efficiency and capacity of lithium-ion batteries by improving electrode conductivity, increasing charge-discharge rates, and enhancing cycle life. Materials like graphene, carbon nanotubes, silicon nanostructures, and transition metal compounds are discussed for their roles in next-generation battery technologies. In the biomedical field, nanomaterials offer innovative solutions in drug delivery, bioimaging, diagnostics, and cancer treatment, owing to their ability to target specific sites, carry therapeutic agents, and respond to biological stimuli. The article also summarizes experimental findings, synthesis methods, material characterizations, and comparative performance analyses to provide a clear understanding of structure property relationships. Challenges such as toxicity, long-term stability, Environmental effects and scalability are also addressed, with suggestions for future research directions. Overall, the review highlights how nanomaterials are shaping the future of sustainable chemistry and advanced technologies across multiple sectors.