A lot of effort has been done to identify better materials for energy storage devices in order to
meet the need for more high-performance systems while also protecting the environment …

Nanocomposites based on manganese oxide (MnO 2) exhibit a significantly wide working
potential window, rendering them highly appealing for utilization in advanced energy …

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 …

This work describes a low-cost wet chemical synthesis technique to produce TiN–ZnS
nanocomposites suitable for high energy density supercapacitors. Ti, Zn, N, and S elements …

This paper reported the facile synthesis of SnO 2, MoS 2, and SnO 2− MoS 2 composite
material via sol-gel method with ex-situ hydrothermal method and utilized for supercapacitor …

Transition metal sulfides have excellent electrochemical performance and show great
potential for improving the energy density of asymmetric supercapacitors. This study …

Electrochemical sensors have attracted scientific interest because of their fast response,
high sensitivity, low power loss and stability. Hydrothermally synthesis of porous VZnS and …

The conception and advancement of materials for highly efficient electrochemical energy
storage devices is of critical importance. This paper propounds the convenient synthesis and …

Supercapacitors have increased considerable interest due to their unique characteristics
such as extended life cycle, high-power density, and environmental friendliness. They serve …

Reliable, effective, and environmentally friendly supercapacitors still need development
despite the progress made in many nanoscale electrode materials. In this area, composite …