Replacing fossil fuels with energy sources and carriers that are sustainable, environmentally
benign, and affordable is amongst the most pressing challenges for future socio-economic …

Since severe global warming and related climate issues have been caused by the extensive
utilization of fossil fuels, the vigorous development of renewable resources is needed, and …

Large-scale deployment of proton exchange membrane (PEM) water electrolyzers has to
overcome a cost barrier resulting from the exclusive adoption of platinum group metal (PGM) …

Water electrolysis has various industrial applications. Over the past years, interest in water
electrolysis technologies has increased largely due to the renaissance of the nuclear …

Atom‐economic catalysts open a new era of computationally driven atomistic design of
catalysts. Rationally manipulating the structures of the catalyst with atomic‐level precision …

As the most attractive energy carrier, hydrogen production through electrochemical water
splitting (EWS) is promising for resolving the serious environmental problems derived from …

We demonstrate the translation of a low-cost, non-precious metal cobalt phosphide (CoP)
catalyst from 1 cm2 lab-scale experiments to a commercial-scale 86 cm2 polymer electrolyte …

Electrocatalytic water splitting (2H2O→ 2H2+ O2) is a very promising avenue to effectively
and environmentally friendly produce highly pure hydrogen (H2) and oxygen (O2) at a large …

Energy storage and conversion technologies are vital to the efficient utilization of
sustainable renewable energy sources. Rechargeable lithium‐ion batteries (LIBs) and the …

Water splitting requires nonprecious materials that can catalyze efficiently both the hydrogen
evolution reaction (HER) and the oxygen evolution reaction (OER). Here, we report the …