Synergistic space-electron regulation under interlayer confinement: Disrupting oxygen evolution/reduction reaction scaling relations via dual-pathway control
Key Points
Disrupting scaling relations enhances oxygen evolution and reduction reactions, leading to optimized performance.
The study reveals dual-pathway control significantly alters the kinetics of electron regulation and reaction dynamics.
Analysis of the dual-pathway mechanism provides insights into interlayer confinement effects on reaction efficiency.
This work highlights a potentially transformative approach for future energy conversion technologies.
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Synergistic space-electron regulation under interlayer confinement: Disrupting oxygen evolution/reduction reaction scaling relations via dual-pathway control | Synapse