Transition metal nitrides (TMNs), an encouraging and new class of emerging materials for
energy storage devices, such as supercapacitors (SCs) and batteries, including Lithium-ion …

The innovative development of electrode materials and their application through
compositing offers promising opportunities for advancing the efficiency of future energy …

Chalcogenides, a promising class of electrode materials, attracted massive popularity owing
to their exciting features of high conductive nature, high capacity, rich redox activities, and …

Energy storage materials, particularly chalcogenides, are fascinating electrode materials for
supercapacitors (SCs) because of their high capacitance, remarkable electrical conductivity …

The rational design and impressive performance of the desired electrode material are one of
the top priorities in the field of the supercapacitor era. Chalcogenides are functional …

This work proposed a facile synthesis of NiSe 2-CoSe nanocomposite via an economical
wet-chemical assisted method for the electrochemical energy storage domain, specifically …

This study portrays a facile wet-chemical synthesis of FeSe2/TiO2 nanocomposites for the
first time for advanced asymmetric supercapacitor (SC) energy storage applications. Two …

This study presents a simple hydrothermal synthesis method for preparing CoSe 2, ZnS, and
their nanohybrid combinations (ZnS-70% CoSe 2 and ZnS-50% CoSe 2, referred to as ZC-1 …

In this paper, cadmium oxide (CdO) was effectively developed on copper selenide (CuSe)
nanoparticles via the wet-chemical method for the first time to explore their electrochemical …

Hierarchical nanostructures with appropriate morphology and surface functionalities are
highly desired to achieve an optimized electrochemical property for active electrode …