Identification and understanding of active sites of non‐noble iron‐nitrogen‐carbon catalysts for oxygen reduction electrocatalysis
Non‐noble iron‐nitrogen‐carbon (Fe‐N‐C) catalysts have been explored as one type of the
most promising alternatives of precious platinum (Pt) in catalyzing the oxygen reduction …
most promising alternatives of precious platinum (Pt) in catalyzing the oxygen reduction …
Geometric Tuning of Single‐Atom FeN4 Sites via Edge‐Generation Enhances Multi‐Enzymatic Properties
Single‐atom nanozymes (SAzymes) are considered promising alternatives to natural
enzymes. The catalytic performance of SAzymes featuring homogeneous, well‐defined …
enzymes. The catalytic performance of SAzymes featuring homogeneous, well‐defined …
DFT and microkinetic investigation of oxygen reduction reaction on corrosion inhibition mechanism of iron surface by Syzygium Aromaticum extract
Corrosion of iron is an important and serious problem in materials. So far, many studies
have been carried out to overcome the corrosion of iron. However, first-principle studies at …
have been carried out to overcome the corrosion of iron. However, first-principle studies at …
Inducing Fe 3d Electron Delocalization and Spin-State Transition of FeN4 Species Boosts Oxygen Reduction Reaction for Wearable Zinc–Air Battery
Transition metal–nitrogen–carbon materials (M–N–Cs), particularly Fe–N–Cs, have been
found to be electroactive for accelerating oxygen reduction reaction (ORR) kinetics …
found to be electroactive for accelerating oxygen reduction reaction (ORR) kinetics …
What Is the “Other” Site in M–N–C?
Single metal atoms embedded in nitrogen-doped graphene (M–N–C) have emerged as a
promising catalyst for a wide variety of reactions. In addition to the pyridinic site, there is …
promising catalyst for a wide variety of reactions. In addition to the pyridinic site, there is …
[HTML][HTML] Selectivity of CO2 reduction reaction to CO on the graphitic edge active sites of Fe-single-atom and dual-atom catalysts: A combined DFT and microkinetic …
We study the carbon dioxide reduction reaction (CO 2 RR) activity and selectivity of Fe
single-atom catalyst (Fe-SAC) and Fe dual-atom catalyst (Fe-DAC) active sites at the interior …
single-atom catalyst (Fe-SAC) and Fe dual-atom catalyst (Fe-DAC) active sites at the interior …
Revealing the Potential-Dependent Rate-Determining Step of Oxygen Reduction Reaction on Single-Atom Catalysts
Single-atom catalysts (SACs) have attracted widespread attention due to their potential to
replace platinum-based catalysts in achieving efficient oxygen reduction reaction (ORR), yet …
replace platinum-based catalysts in achieving efficient oxygen reduction reaction (ORR), yet …
Enhancing oxygen reduction reaction activity of pyrolyzed Fe–N–C catalyst by the inclusion of BN dopant at the graphitic edges
We study the detailed mechanism of oxygen reduction reaction (ORR) at the graphitic edges
of BN-doped pyrolyzed Fe–N–C catalyst (FeN 4-BN-edge) by utilizing the combination of …
of BN-doped pyrolyzed Fe–N–C catalyst (FeN 4-BN-edge) by utilizing the combination of …
Enhanced FeIV═O Generation via Peroxymonosulfate Activation by an Edge‐Site Engineered Single‐Atom Iron Catalyst
As an oxidant, the ferryl‐oxo complex (FeIV═ O) offers excellent reactivity and selectivity for
degrading recalcitrant organic contaminants. However, enhancing FeIV═ O generation on …
degrading recalcitrant organic contaminants. However, enhancing FeIV═ O generation on …
Graphene-edge-supported iron dual-atom for oxygen reduction electrocatalysts
Pyrolyzed Fe–N–C-based catalysts, particularly FeN4, are reported to show enhanced
catalytic activity for some chemical reactions, particularly for the oxygen reduction reaction …
catalytic activity for some chemical reactions, particularly for the oxygen reduction reaction …