Atomically dispersed Ru₃ site catalysts for electrochemical sensing of small molecules

Rational design and construction of electrochemical sensing platforms with high sensitivity and selectivity is one of the challenges in practical application. Although single-atom catalysts (SACs) have attracted extensive attention, atomically dispersed metal catalysts (ADCs) with multi-atom sites can further compensate for the deficiencies of SACs, which have gradually been a research hotspot in recent years. Herein, atomically dispersed Ru₃ site catalyst (Ru₃/NC) is employed to catalyze small biomolecule oxidation, which exhibits much superior electrocatalytic ability of uric acid (UA) to Ru single-atom catalyst (Ru₁/NC). What's more, theoretical calculations reveal that the enhanced performance is mainly derived from the dominant electronic structure of ADCs with multi-atom sites compared to SACs, leading to the more favorable adsorption of hydroxy anion groups, which can serve as one part of the active moiety and "promoter" to achieve the fast oxidation of small biomolecules. Our findings provide a new paradigm for designing promising catalysts to realize highly sensitive and selective small biomolecule detection and explore the catalytic mechanisms of small biomolecules at the atomic scale.