In 2011, Zhang's research team, in cooperation with Li and Liu, reported the Pt1/FeOx
atomically dispersed catalysts for the first time in the world, and based on this, proposed the …

Hydrogen spillover, involving the transfer of H atoms from metal sites onto the catalyst
support, is ubiquitous in chemical processes such as catalytic hydrogenation and hydrogen …

Proton exchange membrane fuel cells (PEMFCs) fueled by hydrogen-rich gas are promising
systems to substitute fossil fuel resources. This review evaluates state of the art and …

Strong metal‐support interactions characteristic of the encapsulation of metal particles by
oxide overlayers have been widely observed on large metal nanoparticles, but scarcely …

Zeolite-confined Pt-based bimetallic catalysts have shown great potential in the direct
dehydrogenation (PDH) reaction, yet the low affinity of the bimetallic species with the zeolite …

The trace amount of CO in H2-rich gas poisons Pt electrode when it is adopted as feedstock
for proton-exchange-membrane fuel cells. Preferential oxidation of CO (PROX) is a …

Oxide thin films grown on metal surfaces have wide applications in catalysis and beyond
owing to their unique surface structures compared to their bulk counterparts. Despite …

Dilute palladium-in-gold alloys have potential as efficient oxidation catalysts; controlling the
Pd surface distribution is critical. Here, the activity for CO oxidation catalyzed by robust dilute …

Highly dispersed transition metal atoms supported by reducible ceria have garnered
considerable attention as CO preferential oxidation (PROX) catalysts. Dual-atom catalysts …

Nitrous oxide (N2O) is a notorious greenhouse gas because of its higher global warming
potential and longer lifetime than those of CO2 and CH4. Here, we present a rational design …