Chemistry Department, Faculty of Science, Benha University,
Benha, Kalubia, Egypt
Department of Chemistry, Usak University,
Amir Mohammed Alsharabasy
Department of Radiobiology, National Center for Radiation Research and Technology,
Nasr city, Cairo, Egypt
Department of Physics Science, University of Harran,
Department of Civil and Environmental Engineering, University of Hawaii at Manoa,
Honolulu, Hawaii, USA
Guidelines for Submission
Manuscripts can be submitted until the expiry of the deadline. Submissions must be previously unpublished and may not be under consideration elsewhere.
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The special issue currently is open for paper submission. Potential authors are humbly requested to submit an electronic copy of their complete manuscript by clicking here.
Nano technology and energy storage enhancement is the most important subject of today’s society because of its important economic side for all countries all over the world and researchers throughout the world is putting a lot of effort into how to make energy as environmental friendly as possible. How well this is done depends on more than one factor, such as the structure of the system that will produce energy. The lithium ion battery can be considered to be a container holding a large amount of energy, and a number of studies have attempted to enhance the energy density of the lithium ion battery. However, at the same time, the remarkable advantages of the lithium ion battery can be a practical problem. If a device can contain higher energy, there is a higher risk of fire explosion. Therefore, safety is a key issue for future applications of the lithium ion battery such as large-scale batteries for electric vehicles and load leveling devices. In order to overcome this problem, the development of all solid state batteries using a solid electrolyte will be a good approach. Polymer nano composites electrolytes, new electrolytic materials competing for a place in the future energy generation, storage and distribution markets. Polymer electrolytes offer many advantages over their more conventional liquid counterparts in these developing technologies, such as: adequate conductivity for practical purposes, flexibility, easy of processing into thin films of a large surface area, good mechanical stability, chemical - electrochemical stability and volumetric stability through charging and dis-charging processes.