Peng Fei Yuan
0000-0002-3546-496X
Shandong Laboratory of Yantai Advanced Materials and Green Manufacturing
55 papers found
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The Special Activity of Stone–Wales Defect Graphene for the Oxygen Reduction Reaction: A Comparison Study between the Charge-Neutral Model and the Constant Potential Model Calculated by Density Functional Theory
The nearby atomic environment effect on an Fe–N–C catalyst for the oxygen reduction reaction: a density functional theory-based study
Toward Rational Design of the Two-Dimensional h-WO3/ZrGe2P4 Heterostructure for N2/CO2 Reduction: Incorporating Multiple Electronic Modulation Engineering
Optimizing electrocatalytic oxygen reduction by adjacent C-O-C structure-driven charge separation on FeN4 active sites
Evolution of Stabilized 1T‐MoS2 by Atomic‐Interface Engineering of 2H‐MoS2/Fe−Nx towards Enhanced Sodium Ion Storage
Tuning Fe-spin state of FeN4 structure by axial bonds as efficient catalyst in Li-S batteries
Altering the spin state of Fe-N-C through ligand field modulation of single-atom sites boosts the oxygen reduction reaction
First-principles studies of monolayers MoSi2N4 decorated with transition metal single-atom for visible light-driven high-efficient CO2 reduction by strain and electronic engineering
Trace surface fluorination and tungsten-intercalation cooperated dual modification induced photo-activity enhancement of titanium dioxide
Concave Pt–Zn Nanocubes with High‐Index Faceted Pt Skin as Highly Efficient Oxygen Reduction Catalyst
Boron‐Tethering and Regulative Electronic States Around Iridium Species for Hydrogen Evolution
Two-Dimensional WO3-Transition-Metal Dichalcogenide Vertical Heterostructures for Nitrogen Fixation: A Photo(Electro) Catalysis Theoretical Strategy
Probing the active sites of 2D nanosheets with Fe-N-C carbon shell encapsulated FexC/Fe species for boosting sodium-ion storage performances
Phosphorus-Driven Electron Delocalization on Edge-Type FeN4 Active Sites for Oxygen Reduction in Acid Medium
Boosting Nitrogen Reduction to Ammonia on FeN4 Sites by Atomic Spin Regulation
Confined Synthesis: From Layered Titanate to Highly Efficient and Durable Mesoporous Cu/TiO2 Hydrogen Evolution Photocatalysts
Regulating Fe-spin state by atomically dispersed Mn-N in Fe-N-C catalysts with high oxygen reduction activity
Polysulfides Shuttling Remedies by Interface-Catalytic Effect of Mn3O4-MnPx Heterostructure
Self-supported bifunctional electrocatalysts with Ni nanoparticles encapsulated in vertical N-doped carbon nanotube for efficient overall water splitting
Boron-rich environment boosting ruthenium boride on B, N doped carbon outperforms platinum for hydrogen evolution reaction in a universal pH range
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