Trifunctional electrocatalysts, an exciting class of materials that can simultaneously catalyze
hydrogen evolution reaction (HER), oxygen evolution reaction (OER), and oxygen reduction …

Abstract Monophasic 1, 2.5, and 5% Zn-decorated TiO 2 nanocatalysts have been fabricated
by environmentally benign hydrothermal synthesis by avoiding expensive chemicals. As …

Hydrogen energy is an alternative to carbon‐based fuels due to its zero pollution and high
energy density. The electrolysis of water, driven by triboelectric nanogenerators (TENGs), is …

Electrochemical water splitting stands out as a highly effective and environment‐friendly
strategy for generating pure hydrogen. However, the expensive catalyst required, and the …

To improve the electrochemical activity and electrochemical energy storage performance of
the catalyst, one of the best approaches is to adjust materials structure reasonably and …

The escalating demand for green hydrogen (H 2) as a sustainable energy carrier has
attracted intensive research into efficient water electrolysis methods. Promising candidates …

The high energy consumption and low efficiency of electrocatalysts restrict the widespread
application of electrochemical water decomposition, despite being a productive method of …

Designing highly efficient electrocatalysts with high current density (HCD) operation
capability to generate ultra-fine green hydrogen through electrochemical water-splitting at …

Agriculture is the most important factor in feeding all humans and animals worldwide. A
fenitrothion (FT) is a broadly used pesticide owing to the more efficient production of crop …

Pure-phase carbides suffer from mismatch in H2 adsorption–desorption kinetics. Herein, we
report on heterostructured CSNi3C/Fe3C@ C/NFs-600 consisting of Co3C and Ni3C …