Add to ORKG© 2020 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim Controllably constructing nitrogen-modified divacancies (ND) in carbon substrates to immobilize atomic Fe species and unveiling the advantageous configuration is still challenging, but indispensable for attaining optimal Fe−N−C catalysts for the oxygen reduction reaction (ORR). Herein, a fundamental investigation of unfolding intrinsically superior edge-ND trapped atomic Fe motifs (e-ND−Fe) relative to an intact center model (c-ND−Fe) in ORR electrocatalysis is reported. Density functional theory calculations reveal that local electronic redistribution and bandgap shrinkage for e-ND−Fe endow it with a lower free-energy barrier toward direct four-electron ORR. Inspired by this, a series of at...
Single-atomic transition metal–nitrogen–carbon (M–N–C) structures are promising alternatives toward ...
Abstract Controllable design and synthesis of catalysts with the target active sites are extremely i...
Single iron atom and nitrogen-codoped carbon (Fe–N–C) electrocatalysts, which have great potential t...
Controllably constructing nitrogen-modified divacancies (ND) in carbon substrates to immobilize atom...
The development of low-cost, efficient, and stable electrocatalysts toward the oxygen reduction reac...
An Fe–N–C catalyst with an FeN4 active moiety has gained ever-increasing attention for the oxygen re...
Earth-abundant materials with Fe-N-C centers have been identified as promising catalysts for oxygen ...
Development of cost-effective electrocatalysts as an alternative to platinum for oxygen reduction re...
Single-atom metal–nitrogen–carbon (M–N–C) catalysts have sparked intense interests, but the catalyti...
Iron-nitrogen-carbon materials have been known as the most promising non-noble metal catalyst for pr...
Controllable design and synthesis of catalysts with the target active sites are extremely important ...
Converting unstable earth-abundant group VIIIB transition metals into stable catalysts with high oxy...
The structure of active sites in Fe-based nonprecious metal oxygen reduction reaction catalysts rema...
Dual-atom catalysts (DACs) are getting extensive attention in electrocatalysis due to their high met...
The coordination environments of iron (Fe) in Fe-N-C catalysts determine their intrinsic activities ...
Single-atomic transition metal–nitrogen–carbon (M–N–C) structures are promising alternatives toward ...
Abstract Controllable design and synthesis of catalysts with the target active sites are extremely i...
Single iron atom and nitrogen-codoped carbon (Fe–N–C) electrocatalysts, which have great potential t...
Controllably constructing nitrogen-modified divacancies (ND) in carbon substrates to immobilize atom...
The development of low-cost, efficient, and stable electrocatalysts toward the oxygen reduction reac...
An Fe–N–C catalyst with an FeN4 active moiety has gained ever-increasing attention for the oxygen re...
Earth-abundant materials with Fe-N-C centers have been identified as promising catalysts for oxygen ...
Development of cost-effective electrocatalysts as an alternative to platinum for oxygen reduction re...
Single-atom metal–nitrogen–carbon (M–N–C) catalysts have sparked intense interests, but the catalyti...
Iron-nitrogen-carbon materials have been known as the most promising non-noble metal catalyst for pr...
Controllable design and synthesis of catalysts with the target active sites are extremely important ...
Converting unstable earth-abundant group VIIIB transition metals into stable catalysts with high oxy...
The structure of active sites in Fe-based nonprecious metal oxygen reduction reaction catalysts rema...
Dual-atom catalysts (DACs) are getting extensive attention in electrocatalysis due to their high met...
The coordination environments of iron (Fe) in Fe-N-C catalysts determine their intrinsic activities ...
Single-atomic transition metal–nitrogen–carbon (M–N–C) structures are promising alternatives toward ...
Abstract Controllable design and synthesis of catalysts with the target active sites are extremely i...
Single iron atom and nitrogen-codoped carbon (Fe–N–C) electrocatalysts, which have great potential t...