Hierarchically Nanostructured Nitrogen-Doped Porous Carbon Multi-Layer Confining Fe Particles for High Performance Hydrogen Evolution

Precise assembly of active component with sophisticated confinement in electrocatalyst are promising to increase the active site exposure for enhanced hydrogen evolution reaction (HER). Here, PCN-333 films with mesopores are firstly assembled on titanium carbide MXene with the assistance of atomic layer deposited oxide nanomembrane. With the whereafter pyrolysis process, the composite is converted to N-doped porous carbon multi-layer containing Fe nanoparticles. The strong confinement of Fe active particle in carbon as well as great contact between metal and carbon effectively enhance active site exposure. Furthermore, this multi-layer porous structure provides high specific surface area and plentiful mesopores for electrolyte penetration. Due to the structural advantage, the composite can be well functioned in both acid and alkaline electrolytes with excellent HER performance, e.g., low overpotential/Tafel slope. The present work may have great potential in developing high efficiency transition-metal based electrocatalysts.