Hybrid Nanostructures

The quick growth of electrochemical energy storage which are applied in various fields like electronics for portable consumer, vehicles of hybrid electrics and also for power and energy management in an industrial scale. Electrochemical capacitors (ECs) is the decisive of electrochemical energy storage systems which can supply an eminent of prolonged life cycle and an excessive power performance, yet in the energy storage field for replacing batteries notably when high power delivery or uptake is required. In order to achieve high performance ECs, the most recent progress in the development of nanostructure electrode materials for EC tech, primarily focused on materials based on carbon that combine with hybrid nanostructures with pseudo capacitive metal oxides or conducting polymers. The rational design and synthesis of hybrid nanostructured electrode materials of ECs were the remaining challenges and future research directions for next generation. It is one of the most promising and rapidly emerging research areas in nanotechnology field. Design, fabrication, and applications of hybrid nanostructures are reviewed, respectively. There has been significant interest in the development of multicomponent nanocrystals formed by the assembly of two or more different materials with control over size, shape, composition, and spatial orientation. With the unique properties of various metals, the semiconductor nanorods has been found of selective growth on the tips of metals, behind that combination of optical and electrical properties which can act by wires. The quick growth of electrochemical energy storage which are applied in various fields like electronics for portable consumer, vehicles of hybrid electrics and also for power and energy management in an industrial scale. Electrochemical capacitors (ECs) is the decisive of electrochemical energy storage systems which can supply an eminent of prolonged life cycle and an excessive power performance, yet in the energy storage field for replacing batteries notably when high power delivery or uptake is required. In order to achieve high performance ECs, the most recent progress in the development of nanostructure electrode materials for EC tech, primarily focused on materials based on carbon that combine with hybrid nanostructures with pseudo capacitive metal oxides or conducting polymers. The rational design and synthesis of hybrid nanostructured electrode materials of ECs were the remaining challenges and future research directions for next generation. It is one of the most promising and rapidly emerging research areas in nanotechnology field. Design, fabrication, and applications of hybrid nanostructures are reviewed, respectively. There has been significant interest in the development of multicomponent nanocrystals formed by the assembly of two or more different materials with control over size, shape, composition, and spatial orientation. With the unique properties of various metals, the semiconductor nanorods has been found of selective growth on the tips of metals, behind that combination of optical and electrical properties which can act by wires.