Role of Nanomaterials in Pharmaceutical Preparation: A Review

Abstract

Aim & objective: This study aims to explore the multifaceted applications of nanomaterials and assess their potential advantages and disadvantages. Understanding the different physicochemical properties of nanomaterials & excipients. Method: This study reviews current literature and research findings to compile a comprehensive overview of nanomaterials. Key aspects covered include synthesis methods, characterization techniques, and notable applications in different industries. The review also discusses the advantages and disadvantages associated with nanomaterials, highlighting their potential benefits and challenges. Advantages & disadvantages: Nanomaterials offer numerous advantages such as enhanced mechanical, electrical, and optical properties, which make them suitable for developing advanced technologies. However, challenges include concerns over their potential environmental and health impacts, as well as the scalability of production processes from laboratory to industrial scales. Additionally, the high cost of synthesis and regulatory uncertainties pose hurdles to widespread adoption. Conclusion: In conclusion, nanomaterials present a paradigm shift in materials science and engineering with vast potential to address pressing global challenges. Their unique properties enable innovative solutions across various sectors, promising significant advancements in healthcare, electronics, energy, and environmental sustainability. However, realizing these benefits requires continued research to mitigate risks and optimize their applications. Establishing robust regulatory frameworks and fostering interdisciplinary collaborations are essential to harnessing the full potential of nanomaterials while ensuring their safe and sustainable integration into society.