Polymers from biomass waste including plant/forest waste, biological industrial process
waste, municipal solid waste, algae, and livestock are potential sources for renewable and …

Activated carbons (ACs) derived from locally available bioresources could be considered
eco-friendly, sustainable, and low cost candidates in energy storage applications. In this …

The conversion of plastic waste into high-value metal-organic framework (MOF) materials
has currently grabbed the attention as an important research area for mitigating …

The polypyrrole@ ZrO2–ZnO (PPy@ ZrO2–ZnO) electrodes were synthesized using an in
situ chemical oxidative method. The samples were characterized by XRD, FTIR, XPS, UV …

An electrochemical capacitor configuration extends its operational potential window by
leveraging diverse charge storage mechanisms on the positive and negative electrodes …

Porous carbonaceous materials derived from biomass, which are both cost-effective and
obtained from sustainable resources, have emerged as appealing electrode materials for …

The polymerization of pyrrole in the frozen state with the presence of organic dyes (methyl
orange (MO) and Acid Blue 25 (AB)) has proven to produce polypyrrole (PPy) …

Metal–organic frameworks (MOFs) derived nanostructures receive immense research focus
due to its high porosity, conductivity, and structural tailrolability features. In this work, porous …

Supercapacitors possess remarkable benefits in terms of electrochemical energy storage,
whereas the inherent defects, such as suboptimal power density, limit commercial …

The study demonstrates the development of graphite/MWCNT nanocomposite electrodes for
supercapacitors. The composite has been developed as a conducting carbon paint, wherein …