The emergence and development of thick electrodes provide an efficient way for the high-
energy-density supercapacitor design. Wood is a kind of biomass material with porous …

The capacitance of the electrochemical interface has traditionally been separated into two
distinct types: non-Faradaic electric double-layer capacitance, which involves charge …

High‐performance electrochemical applications have expedited the research in high‐power
devices. As such, supercapacitors, including electrical double‐layer capacitors (EDLCs) and …

The combination of clean energy storage and reducing CO2 emissions is an effective
strategy to meet the growing energy demands and achieve a sustainable route …

The development of clean and sustainable energy sources has received widespread
interest in the past few decades due to the rolling energy demands while extenuating the …

Abstract Cobalt oxide (Co 3 O 4) has emerged as a promising battery-type material for
electrochemical energy storage devices; however, the low ionic diffusivity, sluggish charge …

Transition metal nitrides (TMNs) are considered as potential electrode materials for high‐
performance energy storage devices. However, the structural instability during the …

Next-generation energy technologies have captured increasing research interest because of
their fascinating advantages, yet the implementation of such technologies requires efficient …

Electrochemical capacitors charge and discharge more rapidly than batteries over longer
cycles, but their practical applications remain limited due to their significantly lower energy …

Ionic and electronic transport in electrodes is crucial for electrochemical energy storage
technology. To optimize the transport pathway of ions and electrons, electrode materials are …