Due to the advantages of renewable, low pollution and wide distribution of biomass
resources, it is selected as the electrode material for supercapacitors. For carbon-based …

The rapid development of modern industry and excessive consumption of petroleum‐based
polymers have triggered a double crisis presenting a shortage of nonrenewable resources …

As the world's demand for green energy storage systems continues to increase,
electrochemical double-layer supercapacitors based on porous carbon electrodes are …

With the increasing demand for sustainable energy storage systems, the development of
various advanced materials from a renewable source is imminent. Owing to the advantages …

With the increase of global energy consumption and serious environmental pollution, green
and sustainable electrode materials are urgently needed for energy storage devices …

The simple design of a high‐energy‐density device with high‐mass‐loading electrode has
attracted much attention but is challenging. Manganese oxide (MnO2) with its low cost and …

The reasonable design of the composition of the composite materials is of great significance
to optimized the electromagnetic (EM) wave absorption performance. Herein, the Ni/NiO@ C …

Designing energy storage devices from thick carbon electrodes with high areal/volumetric
energy density via a simple and green way is very attractive but still challenging. Cellulose …

Porous carbon nanomaterials (PCNs) are widely applied in energy storage devices.
Traditionally, PCNs were mainly synthesized by activation and templating methods, which …

Keeping outstanding electrochemical performance under high mass loading is critical to
develop functional thick electrodes. Here, we report a high phosphorus-doped wood-derived …