Bimetallic electrodes boost molecular junctions | Nature Materials
1-s2.0-S0021951714003686-main - Reatores Químicos 1 - 5
A fundamental look at electrocatalytic sulfur reduction reaction | Nature Catalysis
Cobalt diselenide (001) surface with short-range Co-Co interaction triggering high-performance electrocatalytic oxygen evolution | SpringerLink
A DFT study of molecular adsorption on Au–Rh nanoalloys - Catalysis Science & Technology (RSC Publishing) DOI:10.1039/C6CY01107A
Nanomaterials | Free Full-Text | Enhancement of Catalytic Activity and Durability of Pt Nanoparticle through Strong Chemical Interaction with Electrically Conductive Support of Magnéli Phase Titanium Oxide | HTML
Single-atom alloy catalysts designed by first-principles calculations and artificial intelligence | Nature Communications
PDF) Scaling Relationships for Adsorption Energies on Transition Metal Oxide, Sulfide, and Nitride Surfaces | Berit Hinnemann - Academia.edu
The rate-determining term of electrocatalytic reactions with first-order kinetics - ScienceDirect
PDF) Predictive model of surface adsorption in dissolution on transition metals and alloys
Statistical learning goes beyond the d-band model providing the thermochemistry of adsorbates on transition metals | Nature Communications
Molecular‐Level Insights into the Notorious CO Poisoning of Platinum Catalyst - Chen - - Angewandte Chemie International Edition - Wiley Online Library
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Machine learning for alloys | Nature Reviews Materials
Chemical Causes of Metal Nobleness - Kepp - 2020 - ChemPhysChem - Wiley Online Library
PDF) Benchmarking Computational Alchemy for Carbide, Nitride, and Oxide Catalysts
Dynamics of H2 dissociation on the close-packed (111) surface of the noblest metal: H2 + Au(111): The Journal of Chemical Physics: Vol 145, No 14
Heterogeneous gold catalysis - Wikipedia
Toward a mechanistic understanding of electrocatalytic nanocarbon | Nature Communications
Initial atomic-scale oxidation pathways on a Ni–15Cr(100) alloy surface | npj Materials Degradation
Design of a Surface Alloy Catalyst for Steam Reforming
Turning main-group element magnesium into a highly active electrocatalyst for oxygen reduction reaction | Nature Communications
Design of a Surface Alloy Catalyst for Steam Reforming
