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In the 21st century, the world is growing towards the need for energy and power required for different applications. Supercapacitor/electrochemical supercapacitor (ES) or Ultra capacitor have attracted significant attention as an energy/power density resource. Supercapacitors have been received a lot of applications in the field of power/energy storage of hybrid electric vehicles, mobiles, and digital communications, military, missiles etc. To improve the performance of supercapacitor electrode, preferably it requires conducting current collectors and coated material which is chosen with multi…mehr

Produktbeschreibung
In the 21st century, the world is growing towards the need for energy and power required for different applications. Supercapacitor/electrochemical supercapacitor (ES) or Ultra capacitor have attracted significant attention as an energy/power density resource. Supercapacitors have been received a lot of applications in the field of power/energy storage of hybrid electric vehicles, mobiles, and digital communications, military, missiles etc. To improve the performance of supercapacitor electrode, preferably it requires conducting current collectors and coated material which is chosen with multi oxidation states, good electrical conductivity, mixed capacitive behavior, semi-crystalline (amorphous as well as crystalline), porous and hydrophilic nature, ideal polarizability, low ESR etc. The aim of work is to carry out the systematic study essential to improve the performance of cobalt oxide electrodes prepared by spray pyrolysis.
Autorenporträt
Dr. Revan:Revanappa C. Ambare is working as an Assistant Professorat KMC, College, Khopoli, Raigad, Maharashtra, India. (Affiliated to Mumbai University)Prof. (Dr.) Balkrishna:Balkrishna J. Lokhande is working as a Professor,at School of Physical Sciences, Solapur University, Solapur, Maharashtra, India.