مؤسسة الشرق الأوسط للنشر العلمي
عادةً ما يتم الرد في غضون خمس دقائق
Nanotechnology, the revolutionary field, ever grows in application that are found in the field of sensors, optoelectronics and diseases related to the eyes. On this ground, metal oxide nanoproducts like ZnO, CuO or NiO have gained the interest of researchers due to the marvelous properties of these nanoproducts including enormous surface area, energy band gaps, biocompatibility and environmental degradability . The application of the sizes can revolutionize future technologies, such as high-performance devices and devices for optical processing. The adaptive approach enables specific devices for sensing applications to be created . Moreover, nanotechnology is promoting innovative strategies in the field of ophthalmic drug delivery enabling better cellular uptake, increased tissue penetration, better selectivity, and minimal systemic adverse effects. Diseases like diabetic retinopathy, macular degeneration due to aging, glaucoma, cataracts, and uveitis fall in the category of eye diseases and are ones causing a great deal of diagnostic and therapeutic difficulties. Nanotechnology is used to leap all these challenges. Investigators are working on new “nano-based” ophthalmology systems such as nanocapsule, nanohydrogel, nanoliposome to push effective drug delivery with fewer adverse effects in place of traditional methods. Furthermore, the trend among the researchers is now directed towards the synthesis of catalytically active hybrid transition metal oxide nanoparticles using modified sol-gel methodology, which are of vital importance in fuel cell research. The magnitude of the aforementioned properties of the transition metal oxides at the nanoscale level drive them to be used widely as energy storage or magnetostrictive components . The synthesis of transition metal oxide nanoparticles may be affected by a few means, such as nanolithography and wet process techniques that are applied in nano-engineering of nanostructures with specific properties.