Self-assembly of 3D hierarchical MnMoO₄/NiWO₄ microspheres for high-performance supercapacitor

A simple synthesize method of hybrid transition metal oxides is important for the application of electrodes materials. In this work, we report one-pot hydrothermal method to synthesize 3D hierarchical MnMoO₄/NiWO₄ microspheres. Notably, the 3D hierarchical MnMoO₄/NiWO₄ microspheres electrodes with a MnMoO₄/NiWO₄ molar ratio of 4:3 present outstanding electrochemical performance. The excellent specific capacitance of the hybrid materials is 598 F g^-1 at a discharge current density of 1 A g⁻¹ and the capacitance retains 82% of its initial capacitance even after 5000 cycles, which are attributed to the obtained 3D hierarchical MnMoO₄/NiWO₄ microspheres are constituted by self-assembly MnMoO₄ nanoflakes and NiWO₄ nanoparticals and feature with abundant transportation shortcuts for electrolyte ions and excellent electrochemical performance. The results reveal that the 3D hierarchical MnMoO₄/NiWO₄ microspheres have great application prospect for electrochemical energy storage and the quick and facile method provides a new avenue for the preparation of hybrid materials.