Journal of Nanomedicine & Nanotechnology

Future of nanotech materials with electrical industrial products

6^th Global Experts Meeting on Nanomaterials and Nanotechnology

April 21-23, 2016 Valencia, Spain

A Thabet

Aswan University, Egypt

Posters & Accepted Abstracts: J Nanomed Nanotechnol

Abstract:

The key challenge faced by electrical industrial systems is how to improve operation efficiency with acceptable cost. The wide possibilities of the existing polymers and, particularly, the huge scenarios of new polymer compounds in electrical technology inspire the researchers of the field to innovate and compound new electrical industrial materials to study their properties and behavior thoroughly. The research work on novel nanotechnology materials is of great significance both nationally and internationally in the field of power engineering, and environmental technology due to the increasing demands of more cost-effective, efficient, reliable and environmentally satisfactory industrial equipment. Recently, preliminary work investigates the capability of nano-composite polymeric materials for electrical insulation to show improved electrical performances with respect to the corresponding conventional materials, possibly filled by nano-grains or chemical additives. For our future view, innovating models of solar cells, power cables, capacitors, and electromagnetic industrial applications, etc., lead to achieve more cost-effective, energy-effective and hence environmentally better electrical technology products. In our research, nanotechnology aims to the following points: 1) Designing theoretical and experimental new life models for developing the electrical materials with micro- and nano-scale fillers for solving its affecting problems, 2) Introducing innovative product models of nanotech solar cells, power cables, capacitors, and electromagnetic industrial applications, etc., based on nanotechnology techniques, 3) Transferring and applying technological cooperation areas of nanotech material engineering, 4) Enhancing the performance of conventional electrical products, 5) Improving the reliability performance based on novel materials of power cables and capacitor products, 6) Enhancing electrical behavior based on the novel composite structure of power cables and capacitors material products theoretically and experimentally, 7) Controlling electrical material properties and the characteristics of dielectric materials with respect to our request and the technology applications usage, 8) Testing new fast possible ways for developing the solar cells properties of nanotech materials via addition nanoparticles, and 9) Investigating different factors affecting the properties of electrical materials.

Biography :

Email: athm@aswu.edu.eg