Smart Materials & Material Science

Materials having any external dimension in the Nanoscale, as well as internal or surface structure in the Nanoscale. It has a high surface-to-volume ratio, making it very reactive. The two methods for preparing nanomaterials are bottom-up and top-down. Nanomaterials are created for use in a variety of applied sciences and engineering fields. These nanomaterials have a large impact in the field of material science and engineering despite their small size. Nanomaterials are intelligent materials with a definite structure order. Nanotechnology research focuses on practical applications in smart sensors and smart delivery systems, such as Magnetic Nano devices, Nano-Biosensors, Nano switches, and optical biosensors. Monometallic, bimetallic, iron oxide, titanium dioxide, and zinc oxide are a few examples of well-known nanoparticles used in industry. Nanoparticles are used as chemical catalysts, very good adsorbents, and in sunscreen, cosmetics, and some food products. Carbon nanotubes are used for stain-resistant textiles, and cerium oxide is used as a fuel catalyst. 

Potential topics include, but are not limited to 

• Nanobiotechnology 
• Nanochemistry 
• Nanoelectronics 
• Nanofabrication / manufacturing 
• Nanofluidics 
• Nanomagnetic 
• Nanomaterials 
• Nanomechanics 
• Nanometrology 
• Nanophotonics 
• Nanophysics 
• Nanoplasmonics 
• Inorganic Frame works as Smart Nanomedicines 
• Nanoarchitectonics for Smart Delivery & Drug Targeting