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Article Abstract
Photoelectrochemical (PEC) nitrate reduction shows substantial potential for solar-to-ammonia (NH) conversion. However, low electron density and disordered electron conduction of conventional catalysts result in limited performance and low Faraday efficiency. Herein, a FePSLi superionic conductor (SIC) is developed by introducing lithium ions into van der Waals immobile layered of FePS catalyst. This layered crystal framework facilitates high-concentration lithium ions confinement and long-range diffusion at room temperature, transitioning the conduction mechanism from electronic to mixed ionic/electronic. The typical nanofluidic ion transport leads to a high ionic conductivity of 16.4 mS cm at room temperature and enhanced electronic conductivity of 5 × 10 S cm. Furthermore, mobile lithium ions within interlayers enhance the interaction between the low-lying 3d orbitals of Fe interacting with 2a empty antibonding orbitals of NO . An excellent PEC ammonia production of 134.18 µmol cm h with 96.95% Faradaic efficiency is achieved, and the corresponding solar-to-NH efficiency of 57.13% offers a promising pathway toward sustainable ammonia production.
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