A General Metal Ion Recognition Strategy to Mediate Dual-Atomic-Site Catalysts

Citations Over TimeTop 1% of 2024 papers

Abstract

Heterogeneous dual-atomic-site catalysts (DACs) hold great potential for diverse applications. However, to date, the synthesis of DACs primarily relies on different atoms freely colliding on the support during synthesis, principally leading to low yields. Herein, we report a general metal ion recognition (MIR) strategy for constructing a series of DACs, including but not limited to Fe₁Sn₁, Fe₁Co₁, Fe₁Ni₁, Fe₁Cu₁, Fe₁Mn₁, Co₁Ni₁, Co₁Cu₁, Co₂, and Cu₂. This strategy is achieved by coupling target inorganometallic cations and anions as ion pairs, which are sequentially adsorbed onto a nitrogen-doped carbon substrate as the precursor. Taking the oxygen reduction reaction as an example, we demonstrated that the Fe₁Sn₁-DAC synthesized through this strategy delivers a record peak power density of 1.218 W cm-2 under 2.0 bar H₂-O₂ conditions and enhanced stability compared to the single-atom-site FeN₄. Further study revealed that the superior performance arises from the synergistic effect of Fe₁Sn₁ dual vicinal sites, which effectively optimizes the adsorption of *OH and alleviates the troublesome Fenton-like reaction.

Related Papers

• → Highly efficient photocatalysts constructed by rational assembly of dual-cocatalysts separately on different facets of BiVO₄(2014)554 cited
• → Dual Relationships and Professional Boundaries(1994)134 cited
• → Dual loyalties: How to resolve ethical conflict(2009)7 cited
• → Dual Career Concerns from the Perspective of Both Partners and Different Life Stages(2017)1 cited
• → "Friends, Lovers, & Drinking Buddies: Faculty Dual Relationships and their Impact on Student Conduct"(2015)