This ubiquitous material which increases the efficiency, specificity,

This review paper provides a current perspective
on the potential of Silica nanoparticles Applications. Silica nanoparticles
have been extensively developed since the discovery of mesoporous materials due
to their Unique features such as large surface area, tunable pore diameter,
controlled particle size and morphology, excellent biocompatibility, offer
great advantage. Contributions in the biomedical field, agricultural, food
industry, and catalytical field have been made silica nanoparticles like magic
bullets. The encapsulation of the different bioactive molecules for a wide
range of application has made it a ubiquitous material which increases the
efficiency, specificity, target delivery, bioavailability, biocompatibility of
different bioactive compounds. The silica nanoparticles have evolved from the
field of nanotechnology to different fields of science and engineering. They
have a wonderful approach for the application in the different field like drug
delivery, diagnostic and imaging agent, and target drug delivery in the
treatment of cancer. One of the most valuable features of silica nanoparticles
is the use of them to merge different materials, to combine various
functionalities, that is to say, to act as a basis to obtain multifunctional
medicine dedicated nanoplatforms enabling multimodal imaging and simultaneous
diagnosis and therapy. MSNPs are promising nanocarriers to efficiently
transport and site-specifically deliver highly toxic drugs, like
chemotherapeutic agents with site-specific characteristics to kill only tumor
cells. Mesoporous silica nanoparticles have become excellent nanoplatforms to
design smart drug delivery systems for biomedical applications. The silica
nanoparticles have also contributed a huge development in the smart pesticides
and mineral carriers for the plants in the agricultural field. Thanks to the
versatility and robustness of silica nanoparticles, multifunctional systems,
and smart materials have been proposed employing the platform of mesoporous
silica nanoparticles for the purpose of the biosensors immobilized with
different biomolecules for this purpose

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