The surface and interfaces of heterogeneous catalysts are essential to their performance as
they are often considered to be active sites for catalytic reactions. With the development of …

Advances in electrocatalysis at solid–liquid interfaces are vital for driving the technological
innovations that are needed to deliver reliable, affordable and environmentally friendly …

In the face of the global energy challenge and progressing global climate change,
renewable energy systems and components, such as fuel cells and electrolyzers, which …

A remaining challenge for the deployment of proton-exchange membrane fuel cells is the
limited durability of platinum (Pt) nanoscale materials that operate at high voltages during …

The development of bimetal based catalysts via interfacial engineered strategy has been
intensively explored due to its great potential for enhancing the electrochemical …

The development of ordered Pt-based intermetallic compounds is an effective way to
optimize the electronic characteristics of Pt and its disordered alloys, inhibit the loss of …

Fuel cells are one of the promising energy‐conversion devices due to their high efficiency
and zero emission. Although recent advances in electrocatalysts have been achieved using …

Fully ordered face-centered tetragonal (fct) FePt nanoparticles (NPs) are synthesized by
thermal annealing of the MgO-coated dumbbell-like FePt-Fe3O4 NPs followed by acid …

The rising interest in fuel cell vehicle technology (FCV) has engendered a growing need and
realization to develop rational chemical strategies to create highly efficient, durable, and cost …

The application of Pt alloy catalysts for oxygen reduction reactions (ORRs) in proton-
exchange membrane fuel cells is severely impeded by base metal leaching, since the …