Electrosynthesis of value-added chemicals, directly from CO2, could foster achievement of
carbon neutral through an alternative electrical approach to the energy-intensive …

Ultralow platinum loading and high catalytic performance at the membrane electrode
assembly (MEA) level are essential for reducing the cost of proton exchange membrane fuel …

The past 30 years have seen progress in the development of Pt-based nanocatalysts for the
oxygen reduction reaction, and some are now in production on a commercial basis and …

A substantial amount of research effort has been directed toward the development of Pt-
based catalysts with higher performance and durability than conventional polycrystalline Pt …

In recent years, considerable research and development efforts are devoted to improving the
performance of polymer electrolyte fuel cells. However, the power density and catalytic …

Polymer electrolyte fuel cells (PEFCs) are a promising replacement for the fossil fuel–
dependent automotive and energy sectors. They have become increasingly commercialized …

The high operational and capital costs of polymer electrolyte water electrolysis technology
originate from limited catalyst utilization and the use of thick membrane electrolytes. This is …

A powerful synthetic protocol based on a molecularly engineered anchoring carbon platform
(ACP) is reported to stabilize concentrated edge-hosted single-atom catalytic sites of M–N …

Perfluorinated‐sulfonic‐acid‐based ionomers (PFSAs) are still the material of choice for
electrochemical energy devices such as proton‐exchange membrane fuel cells or water …

The development of an ultralow-Pt catalyst layer (CL) without sacrificing proton-exchange
membrane (PEM) fuel cell performance and durability is urgently needed to boost fuel cell …