Water splitting is a promising approach to producing renewable hydrogen energy with zero
carbon dioxide emission, and it has been intensively studied to improve conversion …

Abstract Tungsten trioxide (WO 3)-based electrochromic devices have attracted great
interest in smart windows, low-power displays, and other cutting-edge fields. The …

Electrocatalytic water splitting involving the hydrogen evolution reaction (HER) and oxygen
evolution reaction (OER) is a crucial and effective pathway to obtain clean and renewable …

The photocatalytic oxidation of benzene to phenol driven by visible light (λ> 420 nm) at room
temperature and under ambient pressure is a promising process. In particular, the …

Develo** a highly efficient and anti-CO poisoning non-noble metal catalyst towards the
hydrogen oxidation reaction (HOR) is of great significance for the wide application of proton …

Carbide–oxide heterointerfaces have been known to be responsible for electrochemical
activity, however, it is rarely investigated in tungsten carbide-oxide heterostructure for the …

The undesirable intrinsic activity of tungsten oxides derived from poor conductivity and
adverse hydrogen absorption energy is insufficient for their practical application. Herein, the …

Heterostructrural electrocatalysts are promising for enhancing reaction performance by
increasing the carriers mobility and lowering the activation energy. Herein, an …

Tungsten oxide (WO3) is an appealing electrocatalyst for the hydrogen evolution reaction
(HER) owing to its cost‐effectiveness and structural adjustability. However, the WO3 …

Tungsten oxide is a promising electrocatalyst for water splitting reactions, due to its flexible
chemical state, strong structural malleability and good corrosion resistance. Herein, the …