Heterogeneous bimetallic catalysts have broad applications in industrial processes, but
achieving a fundamental understanding on the nature of the active sites in bimetallic …

Multi-atom cluster catalysts have turned out to be novel heterogeneous catalysts with atomic
dispersion for electrochemical energy applications. Beyond a simple combination of single …

Heterogeneous single-cluster catalysts (SCCs) comprising atomically precise and isolated
metal clusters stabilized on appropriately chosen supports offer exciting prospects for …

Electrochemical conversion is emerging as a powerful and promising method to produce a
wide range of high-value chemicals on account of mild operation conditions, controllable …

Ultrasmall coinage metal nanoclusters (NCs,< 3 nm) have emerged as a novel class of
theranostic probes due to their atomically precise size and engineered physicochemical …

Electrochemically converting NO3–compounds into ammonia represents a sustainable route
to remove industrial pollutants in wastewater and produce valuable chemicals. Bimetallic …

Electrocatalytic nitrogen reduction reaction (NRR) under ambient conditions provides an
intriguing pathway to convert N2 into NH3. However, significant kinetic barriers of the NRR …

Electrocatalytic reduction is a sustainable approach for NO3− removal and high‐value N‐
containing compounds manufacturing, which, however, is strongly obstructed by sluggish …

In the past decade, isolated single atoms have been successfully dispersed on various
substrates, with their potential applications being intensively investigated in different …

Electrochemical water splitting is one of the most sustainable approaches for generating
hydrogen. Because of the inherent constraints associated with the architecture and …