High efficient renewable energy storage systems have acquired much attention owing to
overconsumption of non-renewable energy sources and growing demand for energy. To be …

Distinguished by particular physical and chemical properties, metal oxide materials have
been a focus of research and exploitation for applications in energy storage devices. Used …

Exploring efficient strategies to overcome the performance constraints of oxygen evolution
reaction (OER) electrocatalysts is vital for electrocatalytic applications such as H2O splitting …

Supercapacitors have emerged as the most integral energy devices due to their
unexampled countenance like high power and energy density, long cyclic life and …

Transition-metal tungstates (MWO4), which are high-performance electrode materials for
supercapacitor use thanks to their intrinsically outstanding electrochemical properties, have …

Anion and cation substitution is an effective way in modulating electrochemical properties of
electrode materials to achieve enhanced performance. Herein, we report our finding in the …

Microplasmas are low‐temperature plasmas that feature microscale dimensions and a
unique high‐energy‐density and a nonequilibrium reactive environment, which makes them …

To realize high-performance and long life span supercapacitors, highly electrochemically
active materials and rational design of structure are highly desirable. Herein, a hierarchical …

Vertical graphene (VG) or vertical graphene arrays have attracted the attention of
researchers in recent years, as electrode materials for supercapacitor application due to its …

Due to advancements in technology, the energy demand is becoming more intense with
time. The rapid fossil fuels consumption and environmental concerns triggered intensive …