Preparation of High Specific Surface Area Activated Carbon from Black Wolfberry Branches as an Efficient Electrode Material for Supercapacitors

Abstract: Black wolfberry branches are used as raw materials, and the KOH activation method is adopted for producing activated carbons with a high specific surface area. The characterization of the material reveals that with increasing activation temperatures, the specific surface area (SSA) and interconnected microporous/mesoporous structure are augmented. The SSA of the prepared material reaches 2046.07m 2 g-1 and a high pore volume of 0.7cm 3 g-1 is obtained. Furthermore, the prepared material exhibits excellent elec… Show more

“…Several materials like activated carbon (AC), − graphene, , carbon aerogels, , and carbon nanotubes , have been extensively investigated as materials for electrodes for SC and CDI applications due to their unique features such as high specific surface area (SSA), high pore volume, high electrical conductivity, and long-run stability. , Due to numerous sustainable sources and natural architectures, biomass-derived ACs have drawn a lot of attention in light of the ongoing demand for electrode materials in renewable electrochemical devices …”

Designing of a Free-Standing Flexible Symmetric Electrode Material for Capacitive Deionization and Solid-State Supercapacitors

“…Several materials like activated carbon (AC), − graphene, , carbon aerogels, , and carbon nanotubes , have been extensively investigated as materials for electrodes for SC and CDI applications due to their unique features such as high specific surface area (SSA), high pore volume, high electrical conductivity, and long-run stability. , Due to numerous sustainable sources and natural architectures, biomass-derived ACs have drawn a lot of attention in light of the ongoing demand for electrode materials in renewable electrochemical devices …”

Designing of a Free-Standing Flexible Symmetric Electrode Material for Capacitive Deionization and Solid-State Supercapacitors

High-efficiency one-step microwave method for high-performance biomass-based hierarchical porous carbon

Effects of binder content on potato starch-derived porous carbon microspheres for high-performance supercapacitors