Jianan Zhang
0000-0002-7559-1090
13 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
Evolution of Stabilized 1T‐MoS2 by Atomic‐Interface Engineering of 2H‐MoS2/Fe−Nx towards Enhanced Sodium Ion Storage
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
Phosphorus-Driven Electron Delocalization on Edge-Type FeN4 Active Sites for Oxygen Reduction in Acid Medium
Regulating electronic structure of two‐dimensional porous Ni/Ni3N nanosheets architecture by Co atomic incorporation boosts alkaline water splitting
Boosting Nitrogen Reduction to Ammonia on FeN4 Sites by Atomic Spin Regulation
N,P-coordinated fullerene-like carbon nanostructures with dual active centers toward highly-efficient multi-functional electrocatalysis for CO2RR, ORR and Zn-air battery
Co2P–CoN Double Active Centers Confined in N‐Doped Carbon Nanotube: Heterostructural Engineering for Trifunctional Catalysis toward HER, ORR, OER, and Zn–Air Batteries Driven Water Splitting
Sulfuration of an Fe–N–C Catalyst Containing FexC/Fe Species to Enhance the Catalysis of Oxygen Reduction in Acidic Media and for Use in Flexible Zn–Air Batteries
Carbon Nanosheets Containing Discrete Co-Nx-By-C Active Sites for Efficient Oxygen Electrocatalysis and Rechargeable Zn–Air Batteries
Atomic-scaled cobalt encapsulated in P,N-doped carbon sheaths over carbon nanotubes for enhanced oxygen reduction electrocatalysis under acidic and alkaline media
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