At present, supercapacitors are the most promising form of high capacity, mobile energy storage devices. Among different supercapacitor materials, manganese-based …
Carbon-containing NiCo2S4 hollow-nanoflake structures were fabricated by a one-step solvothermal method using CS2 as a single source for sulfidation and carbonization. The …
Recently, energy storage devices, specifically supercapattery devices, have attained much attention due to their high energy density (E), extraordinary power density (P) and high …
The cost-effective, efficient, and straightforward synthesis of materials for supercapacitor applications has attracted considerable attention for practical applications. In this study, thin …
Methods for the fabrication of thin films with well controlled structure and properties are of great importance for the development of functional devices for a large range of applications …
Abstract Various Mn-doped ZnS controlled nanostructures were synthesized directly on the nickel foam to develop a binder-free, high-performance positive electrode for …
Supercapacitors suffer from lack of energy density and impulse the energy density limit, so a new class of hybrid electrode materials with promising architectures is strongly desirable …
Enhancement in electrochemical performance of electrode materials has been the recent focus for material development of electrochemical energy storage devices. For the first time …
In energy storage-device it is highly crucial to develop durable electrode materials having high specific capacitance and superior energy density without disturbing its inherent …