nano silicon dioxide offers versatility in drug delivery system design. It can be incorporated into various formulations such as nanoparticles, liposomes, hydrogels, or microspheres, depending on the desired application and route of administration. This versatility allows for customization and optimization of drug delivery systems based on specific therapeutic needs. Researchers can tailor the size, shape, and surface properties of nano silicon dioxide carriers to achieve the desired drug release profile and targeting efficiency. https://metareported.com/advantages-of-nano-silicon-dioxide-in-drug-delivery-systems/

Catalysis: Nanosilica-based catalysts have shown exceptional catalytic activity and selectivity in various reactions such as hydrogenation, oxidation, and polymerization. The high surface area and unique surface chemistry of nanosilica provide active sites for catalytic reactions. Environmental Remediation: Nanosilica has been extensively researched for environmental remediation purposes. It is used for the removal of heavy metals, organic pollutants, and dyes from wastewater. The high adsorption capacity and photocatalytic properties of nanosilica contribute to its effectiveness in environmental cleanup. Biomedical Applications: Nanosilica has gained significant attention in biomedical applications. It is utilized in drug delivery systems, bioimaging, tissue engineering, and biosensing. The biocompatibility, large surface area, and ease of surface functionalization make nanosilica an ideal material for biomedical applications. https://morningreported.com/methods-of-preparation-and-application-areas-of-nanosilica/