Abstract
In the present study, nanostructuring effect of multi-walled carbon nanotubes (MWCNTs) on electrochemical properties of coal tar pitch (CTP) based carbon foam (CFoam) was investigated. The different weight fractions of MWCNTs were mixed with CTP and foam was developed from the mixture of CTP and MWCNTs by sacrificial template technique and heat treated at 1,400 and 2,500 °C in inert atmosphere. These foams were characterized by scanning electron microscopy, X-ray diffraction, and potentiostat PARSTAT for cyclic voltammetry. It was observed that, bulk density of CFoam increases with increasing MWCNTs content and decreases after certain amount. The MWCNTs influence the morphology of CFoam and increase the width of ligaments as well as surface area. During the heat treatment, stresses exerting at MWCNTs/carbon interface accelerate ordering of the graphene layer which have positive effect on the electrochemical properties of CFoam. The current density increases from 475 to 675 mA/cm2 of 1,400 °C heat treated and 95 to 210 mA/cm2 of 2,500 °C heat-treated CFoam with 1 wt% MWCNTs. The specific capacitance was decreases with increasing the scan rate from 100 to 1,000 mV/s. In case of 1 % MWCNTs content CFoam the specific capacitance at the scan rate 100 mV/s was increased from 850 to 1,250 μF/cm2 and 48 to 340 μF/cm2 of CFoam heat treated at 1,400 °C and 2,500 °C respectively. Thus, the higher value surface area and current density of MWCNTs-incorporated CFoam heat treated to 1,400 °C can be suitable for lead acid battery electrode with improved charging capability.
Highlights
Secondary batteries are generation energy storage alternatives for wide variety of portables personal computers, cellular phones, digital cameras, items of military electronic equipment, etc
In case of 1 % multi-walled carbon nanotubes (MWCNTs) content carbon foam (CFoam) the specific capacitance at the scan rate 100 mV/s was increased from 850 to 1,250 lF/cm2 and 48 to 340 lF/cm2 of CFoam heat treated at 1,400 °C and 2,500 °C respectively
The higher value surface area and current density of MWCNTs-incorporated CFoam heat treated to 1,400 °C can be suitable for lead acid battery electrode with improved charging capability
Summary
Secondary batteries are generation energy storage alternatives for wide variety of portables personal computers, cellular phones, digital cameras, items of military electronic equipment, etc. Nanostructured materials including metal nanoparticles, nanowires and carbon nanotubes have been demonstrated for high energy/power density with significantly improved durability (Arico et al 2005; Kumar et al 2013) Since their first observation by Iijima (1991) CNTs attracted considerable attention because of their excellent electrical conductivity (103–106 S/cm), ultra-high strength, high surface area and large aspect ratio that made them an ideal reinforcing additive for development of high-performance advanced materials (Moniruzzaman and Winey 2006; Spitalskyy et al 2010; Ajayan et al 1994). Ag/AgCl electrode and platinum plate were used as the reference electrode and counter electrode, respectively
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
