Carbon black produced by plasma in benzene solution applied as the conductive agent in lithium secondary batteries

When producing hydrogen and carbon black from hydrocarbons using plasma, the economic feasibility must be ensured. In this study, the produced carbon black was heat-treated at various temperatures and applied as a conductive agent in lithium secondary batteries to evaluate its potential. When plasma was discharged into the benzene solution, carbon black particles (primary particles, 20-50 nm) were generated along with hydrogen gas, and were aggregated to grow secondary particles 400-500 nm in size. When carbon black was heat-treated, the crystallinity increased as the heat-treatment temperature increased, and multiple nanoshells in the form of pentagons or hexagons were formed by continuous long multi-graphene. Carbon black produced by heat treatment at 1500 degrees C showed the highest capacity and excellent charge/discharge characteristics, which was attributed to its high electrical conductivity and specific surface area. The carbon black prepared in this study could be a good candidate to replace commercialised Super-P in the future.

Automated summary

In this study, hydrogen and carbon black were produced from hydrocarbons using plasma, and the produced carbon black was heat-treated at various temperatures. The heat-treated carbon black showed increased crystallinity and formed multiple nanoshells. The carbon black heat-treated at 1500 degrees C exhibited the highest capacity and excellent charge/discharge characteristics due to its high electrical conductivity and specific surface area. Therefore, it could be a potential replacement for commercialized Super-P in the future.