Some recent developments in the preparation of biomass carbon electrodes (CEs) using
various biomass residues for application in energy storage devices, such as batteries and …

Developing effective electrodes with commercial-level active mass-loading (> 10 mg cm− 2)
is vital for the practical application of supercapacitors. However, high active mass-loading …

Abstract Design and optimization of electrode materials plays the pivotal role on the
performance of capacitive deionization (CDI). Activated carbon (AC) has been a workhorse …

Energy storage in electrochemical hybrid capacitors involves fast faradaic reactions such as
an intercalation, or redox process occurring at a solid electrode surface at an appropriate …

Porous carbon derived from grape marc (GM) was synthesized via carbonization and
chemical activation processes. Extrinsic nitrogen (N)-dopant in GM, activated by KOH, could …

Metal-organic frameworks (MOFs) are promising for photocatalysis owing to their excellent
structure and performance. Unfortunately, poor stability in both aqueous solutions and high …

To circumvent the trade-off contradiction between porosity and graphitization of carbon
materials for high-performance electrical double layer supercapacitors (EDLCs), we herein …

Sodium‐ion batteries (NIBs) are promising energy‐storage devices with advantages such as
low cost and highly abundant raw materials. To probe the electrochemical properties of …

Electrical double‐layer capacitors are a key building block for energy storage applications,
including renewable energies, wherever high power is needed. Most research on …

An efficient strategy of surface engineering is developed to extraordinarily boost the energy
density of multiscale porous carbon cloth for aqueous symmetric supercapacitors by …