Featuring low cost, high abundance, low electrochemical potential, and large specific
capacity, zinc (Zn) metal holds great potential as an anode material for next-generation …

Water splitting, which encompasses the hydrogen evolution reaction (HER) and the oxygen
evolution reaction (OER), is a promising approach for large-scale and sustainable …

Tungsten oxide (WO 3) with different morphologies (nanorods, spheres, sea urchins and
flowers) were synthesized by a hydrothermal method. Among them, the WO 3 based gas …

Transition-metal selenides (TMSs) have great potential in the synthesis of supercapacitor
electrode materials due to their rich content and high specific capacity. However, the …

Simple preparation, favorable price and environmental protection have been a long-term
challenge in the field of electrochemistry. Herein, we studied and prepared a bifunctional Mo …

Co3O4 is a potential high-capacity anode material for lithium-ion batteries (LIBs) and
potassium-ion batteries (PIBs), but the poor electrical conductivity and large volume …

The preparation of fast, highly responsive and reliable gas sensing devices for the detection
of acetone gas is considered to be a key challenge for the development of accurate disease …

In this work, Fe-doped ZnO (Fe–ZnO) porous nanosheets gas sensors were fabricated to
detect acetone gas. The pure and 0.5, 1, 3 mol% Fe–ZnO nanosheets were synthesized …

Constructing interface is an efficient strategy to develop high-performance nanomaterials for
energy storage and conversion. By adopting the combined strategies of interface …

MXenes are mainly produced via selectively etching MAX phases in aqueous F‐containing
solutions, commonly showing a highly hydrophilic character due to their plentiful‐O and‐OH …