Highly active, stable and low-cost electrocatalysts are critical to make environment-related
electrocatalytic techniques commercially viable. Nanostructured transition metal phosphides …

Under the double pressures of both the energy crisis and environmental pollution, the
exploitation and utilization of hydrogen, a clean and renewable power resource, has …

Transition metal phosphides (TMPs), as non-precious metal compounds, have attracted
growing interest as heterogeneous electrocatalysts for overall water splitting. They have …

Exploring high‐efficiency, stable, and cost‐effective bifunctional electrocatalysts for overall
water splitting is greatly desirable and challenging. Herein, a newly designed hybrid catalyst …

Water electrolysis has been considered as one of the most effective, secure and sustainable
ways to produce clean hydrogen energy to resolve the looming energy and environmental …

Sustainable production of hydrogen is a hopeful requirement of a strategic future economy
and development. Water splitting driven by electricity is a favorable pathway for renewable …

The removal of low-concentration antibiotics from water to alleviate the potential threat of
antibiotic-resistant bacteria and genes calls for the development of advanced treatment …

Considerable research efforts have been devoted to the lithium–sulfur battery due to its
advantages such as high theoretical capacity, high energy density, and low cost. However …

Large-scale hydrogen production by electrolytic splitting of water is mainly governed by high-
efficient yet cheap electrocatalysts that could be capable of accelerating the sluggish …

Effectively active oxygen evolution reaction (OER) electrocatalysts are highly desired for
water splitting. Herein, the design and fabrication of nanometer‐sized Fe‐modulated …