Various metal-based electrocatalysts from nanocrystals, to clusters and single-atoms, have
been well-discovered towards high-efficient power devices and electrocatalytic conversion …

With increasing energy demands worldwide, significant efforts have been made to develop
superior electrocatalysts for efficient energy conversion systems. Among all the …

Single-atom catalysts not only maximize metal atom efficiency, they also display properties
that are considerably different to their more conventional nanoparticle equivalents, making …

To promote the commercialization of direct formic acid fuel cell (DFAFC), it is vital to explore
new types of direct formic acid oxidation (FAOR) catalysts with high activity and direct …

Platinum is the most effective metal for a wide range of catalysis reactions, but it fails in the
formic acid electrooxidation test and suffers from severe carbon monoxide poisoning …

Pd-based materials are promising electrocatalysts for the formic acid oxidation reaction
(FAOR) but suffer from poor durability due to the poisoning of adsorbed carbon monoxide …

Pt-based materials with high-index facets (HIFs) are highly regarded as efficient
electrocatalysts, because of their abundant active step sites. Nevertheless, it is still a …

Heterogeneous catalysis of formic acid dehydrogenation at room temperature is a promising
tactic for safely storing and producing H2 as an efficient energy carrier. Up to now, the …

Engineering multicomponent nanocatalysts is effective to improve electrocatalysis in many
applications, yet it remains a challenge in constructing well‐defined multimetallic active sites …

Single‐atom decorating of Pt emerges as a highly effective strategy to boost catalytic
properties, which can trigger the most Pt active sites while blocking the smallest number of …