The past several years have witnessed great progress in electrocatalytic applications of
transition-metal-based materials through electronic modulation resulting from dd and dp …

Single‐atom catalysts (SACs) provide well‐defined active sites with 100% atom utilization,
and can be prepared using a wide range of support materials. Therefore, they are attracting …

Heteronuclear double-atom catalysts, unlike single atom catalysts, may change the charge
density of active metal sites by introducing another metal single atom, thereby modifying the …

For current single‐atom catalysts (SACs), modulating the coordination environments of rare‐
earth (RE) single atoms with complex electronic orbital and flexible chemical states is still …

Fe–N–C single-atomic metal site catalysts (SACs) have garnered tremendous interest in the
oxygen reduction reaction (ORR) to substitute Pt-based catalysts in proton exchange …

The development of highly efficient and robust bifunctional electrocatalysts for oxygen
reduction (ORR) and evolution reactions (OER) is the key issue for realizing high …

Oxygen reduction reaction (ORR) is an essential process for sustainable energy supply and
sufficient chemical production in modern society. Single‐atom catalysts (SACs) exhibit great …

The coupling of zinc with iodine evokes the fabrication of advanced rechargeable batteries
via redox conversion. However, the easy sublimation of iodine and high solubility of …

Tailoring the interfacial interaction between metal species and supports in supported
electrocatalysts is of great importance for enhanced electrocatalytic performance. Herein, a …

The development of neutral zinc–air batteries (ZABs) is long been impeded by the sluggish
oxygen reduction reaction (ORR) derived from insufficient O2 activation and OH* blocking …