The application of renewable energy conversion devices is considered as one of the
effective ways to alleviate the energy shortage and environmental pollution. Designing …

Hydrogen production from electrochemical water splitting represents a highly promising
technology for sustainable energy storage, but its widespread implementation heavily relies …

Despite the fact that d‐band center theory links the d electron structure of transition metals to
their catalytic activity, it is yet unknown how the synergistic effect of multi‐d electrons impacts …

Abstract Ruthenium (Ru)‐based catalysts, with considerable performance and desirable
cost, are becoming highly interesting candidates to replace platinum (Pt) in the alkaline …

Theoretical calculations unveil the charge redistribution over abundant interfaces and the
enhanced electronic states of Ru/RuS2 heterostructure. The resulting surface electron …

The oxygen evolution reaction (OER), as a four-electron transfer process with large
overpotential loss that is also kinetically sluggish, is one of the most crucial electrochemical …

Ruthenium shares similar intrinsic activity with Pt in hydrogen bond strength, and possesses
the merits of relatively low cost (~ 4% cost of Pt) and excellent durability, thereby becoming …

Hydrogen oxidation reaction (HOR) is an important semi‐cell reaction in the renewable
energy conversion technology such as fuel cells. However, due to the slow reaction rate, the …

Water splitting for production of hydrogen as a clean energy alternative to fossil fuel has
received much attention, but it is still a tough challenge to synthesize electrocatalysts with …

Hydrogen produced from electrocatalytic water splitting means is deemed to be a promising
route to construct a low‐carbon, eco‐friendly, and high‐efficiency modern energy system …