Zinc–air batteries (ZABs) have garnered significant interest as a viable substitute for lithium-
ion batteries (LIBs), primarily due to their impressive energy density and low cost. However …

BiVO 4 based photoanodes have been regarded as one of the potential semiconductors for
solar to hydrogen energy by photoelectrochemical water splitting. However, the activity and …

Develo** cost-effective, efficient, and durable bifunctional non-noble metal
electrocatalysts is crucial for addressing the energy crisis. Electronic modulation of intrinsic …

Rational design of highly efficient noble‐metal‐unbound electrodes for hydrogen and
oxygen production at increased current density is crucial for robust water‐splitting. A facile …

Two different nanostructures of two dissimilar highly‐potent active electrocatalysts, P‐
dopped metallic‐(1T)‐Fe‐VSe2 (P, Fe‐1T‐VSe2) nanosheet and P‐dopped Fe‐CoSe2 (P …

Electrolysis of seawater to produce hydrogen is a replenished way to utilize sustainable
hydrogen energy. However, it remains a challenge to develop electrocatalysts with high …

The effective advancement of skilled transition metal electrocatalysts is crucial for promoting
the hydrogen evolution reaction (HER) in the process of water splitting. In this context, the …

The catalytic potential of single atom incorporated heterostructures holds substantial
promise because of their ability to offer customizable chemical functionality and abundant …

Enhancement of an alkaline water splitting reaction in Pt‐based single‐atom catalysts
(SACs) relies on effective metal‐support interactions. A Pt single atom (PtSA)‐immobilized …

The development of a nonnoble metal‐based cost‐effective, efficient, and durable
bifunctional electrocatalyst is crucial to achieving the goal of carbon neutrality. In this study …