Current progress in the advancement of energy‐storage devices is the most important factor
that will allow the scientific community to develop resources to meet the global energy …

H 2-fed polymer electrolyte membrane fuel cells (PEMFCs) are the most advanced fuel cell
technology to date and continue to be of great interest as prospective energy sources in …

Interactions between metals and supports are of fundamental interest in heterogeneous
catalysis. The electronic, geometric and bifunctional effects originating from Strong Metal …

Metal carbide catalysts are alternative nonprecious electrode materials for electrochemical
energy conversion devices, such as for H2 fuel cells or electrolyzers. In this article, we report …

Core–shell particles with earth-abundant cores represent an effective design strategy for
improving the performance of noble metal catalysts, while simultaneously reducing the …

This work explores the opportunity to substantially reduce the cost of hydrogen evolution
reaction (HER) catalysts by supporting monolayer (ML) amounts of precious metals on …

Transition‐metal carbides (TMCs) exhibit catalytic activities similar to platinum group metals
(PGMs), yet TMCs are orders of magnitude more abundant and less expensive. However …

One limitation for large scale water electrolysis is the high price of the Pt cathode catalyst.
Transition metal carbides, which are considered as some of the most promising non-Pt …

The high cost and limited supply of platinum (Pt) represent barriers to large-scale
commercial applications of several electrochemical devices that utilize Pt as electrocatalysts …

A fundamental understanding of the behavior of non‐noble based materials toward the
hydrogen evolution reaction is crucial for the successful implementation into practical …