The development of high-performance supercapacitors (SCs) highly depends on the
advanced electrode materials, but they are plagued by the sluggish reaction kinetics. With …

The advancements in high‐performance flexible energy storage devices are crucial to
realize the integration and multifunctionality of wearable devices. Transition metal selenides …

The potential of mixed metal chalcogenide nanostructures as battery-type electrodes for
hybrid supercapacitors is gaining interest due to their superior electrochemical properties …

Developing novel electrode materials with reasonable structures and ideal conductivity is of
great significance for energy storage devices. In this work, Ni 3 Se 2@ C yolk-shell nanorods …

The practical exploration of electrode materials with complex hollow structures is of
considerable significance in energy storage applications. Mixed-metal selenides (MMSs) …

To construct a supercapacitor (SC) with considerable performance, synthesis of an electrode
material with a highly porous structure is necessary. Herein, an efficient metal–organic …

Transition metal chalcogenides (TMCs) are the fascinating replacement of noble catalysts in
catalytic water splitting due to their unique physical and chemical properties and low cost …

Cost-effective and stable electrocatalysts with ultra-high current densities for electrochemical
oxygen evolution reaction (OER) are critical to the energy crisis and environmental pollution …

Electrolysis of water is regarded as an attractive and feasible way for producing hydrogen.
So far, various non‐noble metal nanomaterials have been reported as excellent …

Electrode materials based on the yolk–shell structure are of considerable importance in the
energy-storage field. Herein, rugby-ball-like NiCo2Se4 yolk–shell nanostructures (RB-NCS) …