Review

. 2024 Apr 28;16(4):e59234.

doi: 10.7759/cureus.59234. eCollection 2024 Apr.

Nanotechnology's Applications and Potential in Various Fields

Asmith K Soni¹, Roshan K Jha²

Affiliations

¹ Medical Education, Jawaharlal Nehru Medical College, Datta Meghe Institute of Higher Education and Research, Wardha, IND.
² Biochemistry, Jawaharlal Nehru Medical College, Datta Meghe Institute of Higher Education and Research, Wardha, IND.

PMID: 38813303
PMCID: PMC11134515
DOI: 10.7759/cureus.59234

Review

Nanotechnology's Applications and Potential in Various Fields

Asmith K Soni et al. Cureus. 2024.

. 2024 Apr 28;16(4):e59234.

doi: 10.7759/cureus.59234. eCollection 2024 Apr.

Authors

Asmith K Soni¹, Roshan K Jha²

Affiliations

¹ Medical Education, Jawaharlal Nehru Medical College, Datta Meghe Institute of Higher Education and Research, Wardha, IND.
² Biochemistry, Jawaharlal Nehru Medical College, Datta Meghe Institute of Higher Education and Research, Wardha, IND.

PMID: 38813303
PMCID: PMC11134515
DOI: 10.7759/cureus.59234

Abstract

Since ancient times, several sorts of nanoparticles have been employed in the quickly expanding field of nanotechnology. These features include size, shape, and chemical as well as physical properties. Because of their small size and huge surface area, carbon-based nanoparticles, including fullerenes, carbon nanotubes, graphene, graphene oxide, and carbon-based quantum dots, have attracted a lot of attention in a variety of sectors, including biomedical applications. Lipid bilayers form the spherical vesicles known as liposomes. Magnetic resonance imaging (MRI) contrast agents are iron oxide nanoparticles. These materials are perfect for drug and delivery of genes, bioimaging, and bone repair because of their remarkable mechanical, electrical, visual, and chemical properties. However, concerns about potential asbestos-related diseases have arisen due to their length-to-width aspect ratio. Ceramic nanoparticles, on the other hand, are a common material in daily life and play a crucial role in bone repair, multiscale hybridisation, and aerospace structures. These nanoparticles can enhance osseointegration and bone development by mimicking the nanocomposition and nanoscale characteristics of bone tissue and enhance osteoconductive and osteoinductive capacities. Ceramic nanoparticles, however, have the potential to generate oxidative stress, which can result in irritation of the reticuloendothelial system, cytotoxicity to the heart, liver, and lungs, as well as toxicity to the cells that are attached. Additionally, oxidative stress, cell damage, and genotoxicity might result from the generation of free radicals by ceramic nanoparticles. Metal nanoparticles exhibit linear optical properties similar to molecular systems but arise from a different physical process. Semiconductor nanocrystals (NCs) are made from various compounds, such as silicon and germanium. Polyandry nanoparticles are particles approximately 10 and 10000 nanometers (nm) in size that can contain active substances. They have applications in vaccine delivery, gene therapy, and polymer nanoparticles (nanomedicine) for therapeutic applications.

Keywords: biomedical applications; gene delivery; nanomedicine; nanoparticles; nanotechnology.

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Conflict of interest statement

The authors have declared that no competing interests exist.

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**Figure 1. PRISMA flowchart**
PRISMA: Preferred Reporting Items for Systematic Reviews and Meta-Analyses

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Nanotechnology's Applications and Potential in Various Fields

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Nanotechnology's Applications and Potential in Various Fields

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