Supercapacitors are considered reliable devices for energy storage. However,
supercapacitor has some limitations, such as relatively low capacitance and low energy …

Asymmetric supercapacitors (ASCs) have attracted significant attentions worldwide owing to
their wider voltage window compared with symmetric supercapacitors (SCs). Through …

Transition bimetallic compounds are exploited as high-capacity electrode materials for
supercapacitors due to their abundant electroactive sites and electrical conductivity …

Since the first exfoliation of a few atomic layers of transition metal carbides (Ti 3 C 2) from
the three-dimensional (3D) MAX phase (Ti 3 AlC 2) in 2011, a family of two-dimensional …

Graphene‐based supercapacitors have been attracting growing attention due to the
predicted intrinsic high surface area, high electron mobility, and many other excellent …

Highly flexible supercapacitors (SCs) have great potential in modern electronics such as
wearable and portable devices. However, ultralow specific capacity and low operating …

To meet a fast‐emerging demand, flexible energy storage applications have a great interest
in the development of highly flexible hierarchical nanoarchitectures. Metal nitrides have …

Carbon materials with hierarchical nanostructures are well accepted propitious materials for
electrode application in supercapacitor devices. Herein, a hierarchical ternary carbon …

The recent development of nanoscale fillers, such as carbon nanotubes, graphene, and
nanocellulose, allows the functionality of polymer nanocomposites to be controlled and …

A facile two‐step strategy is developed to design the large‐scale synthesis of hierarchical,
unique porous architecture of ternary metal hydroxide nanowires grown on porous 3D Ni …