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      3.3.4 Polymer-Based Nanoparticles

      3.3.5 Polymer-Based Micelles

Schematic illustration of Carbon nanotubes. Schematic illustration of Polymer-based nanoparticles. Schematic illustration of Polymer-based micelle formation.

      3.3.6 Dendrimers

Schematic illustration of Polymer-based micelle formation.

      3.3.7 Metallic Nanoparticles

      Particles smaller than 100 nm using metals such as gold, silver, and iron oxides to formulate nanoparticles, nanocages, and nanoshells are utilized to enable and modify their advantages in therapy and diagnosis of diseases [39].

       3.3.7.1 Gold Nanoparticles

Schematic illustration of PEG coated gold nanospheres.

       3.3.7.2 Iron Oxide Nanoparticles

      Ferric oxide is a paramagnetic inorganic compound. It is one of the three iron oxides. Fe2O3 NPs are magnetic nanosized particles present in reddish brown color. They are widely used in biological applications such as a resolution enhancer in the contrast therapeutic agents in MRI imaging, tracking of stem cells and cellular molecules, magnetic separation of biological molecules, hyperthermia, and gene therapy due to their inbuilt magnetic property, extremely fine structure, and biocompatibility [41].

      3.3.8 Quantum Dots

      Technically “small crystal sizing 2 to 10 nm—numbers of electrons variable occupying discrete amount, well defined state possessing electronic characteristics functionally intermediating between the bulk and discrete particulate.” They consist of a central core with semiconducting molecules encapsulated by cap shell enhancing their aqueous buffer solubility. They are used in multiple purposes like gene therapy, disease diagnosis, and drug delivery. The major limitations of quantum dot are the precipitation of nanotoxicity in biomedical applications [42].

      3.3.9 Nanodiamonds

Schematic illustration of Nanodiamond particles with surface functional groups.

      The characteristic properties of the above nanotools facilitate the advantages of decreasing the drug toxicity, minimize the drug resistance, improvise the eternal route of drug bioavailability, enhance the aqueous solubility by increasing its surface area and decreasing its particle size, and ultimately reduce the dose of drug required by increasing the ability to selectively target the specific site and enhance drug formulation stability. This uniqueness paves the way

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