Facile Synthesis of Biocarbon-Based MoS(2) Composite for High-Performance Supercapacitor Application

[Image: see text] Nanocomposites are gaining high demand for the development of next-generation energy storage devices because of their eco-friendly and cost-effective natures. However, their short-term energy retainability and marginal stability are regarded as hindrances to overcome. In this work, we demonstrate a high-performance supercapacitor fabricated by biocarbon-based MoS(2) (Bio-C/MoS(2)) nanoparticles synthesized by a facile hydrothermal approach using date fruits. Here, we report the high specific capacitance for a carbon-based nanocomposite employing the pyrolysis technique of converting agricultural biowaste into a highly affordable energy resource. The biocompatible Bio-C/MoS(2) nanospheres exhibited a high capacitance of 945 F g(–1) at a current density of 0.5 A g(–1) and an excellent reproducing stability of 92% after 10000 charge/discharge cycles. In addition, the Bio-C/MoS(2) NS showed an exceptional power density of 3800–8000 W kg(–1) and an energy density of 74.9–157 Wh kg(–1). The results would pave a new strategy for design of eco-friendly materials toward the high-performance energy storage technology.