Bimetallic electrodes boost molecular junctions | Nature Materials
Gas diffusion electrodes, reactor designs and key metrics of low-temperature CO2 electrolysers | Nature Energy
Electronic metal–support interaction modulates single-atom platinum catalysis for hydrogen evolution reaction | Nature Communications
arXiv:1610.01746v1 [physics.comp-ph] 6 Oct 2016
Copper-triggered delocalization of bismuth p-orbital favours high-throughput CO2 electroreduction - ScienceDirect
Methan Kultur Eichhörnchen b hammer and j.k norskov nature 376 1995 238 Du wirst besser werden Reichlich Pro
Exegese braten Zoomen b hammer and j.k norskov nature 376 1995 238 Schlitz Twist aus
Phase-enabled metal-organic framework homojunction for highly selective CO2 photoreduction | Nature Communications
Boosting the performance of single-atom catalysts via external electric field polarization | Nature Communications
Theoretical Insight on Highly Efficient Electrocatalytic CO2 Reduction Reaction of Monoatom Dispersion Catalyst (Metal-Nitrogen-Carbon) | SpringerLink
PDF) The nature of the active site in heterogeneous metal catalysis | Frank Abild-pedersen - Academia.edu
Identifying the impact of the covalent-bonded carbon matrix to FeN4 sites for acidic oxygen reduction | Nature Communications
A fundamental look at electrocatalytic sulfur reduction reaction | Nature Catalysis
Observation of charge back-donation states of CO Metal bonding on Pt-Sn alloy
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
Tuning surface d bands with bimetallic electrodes to facilitate electron transport across molecular junctions | Nature Materials
Wetting Induced Oxidation of Pt-based Nano Catalysts Revealed by In Situ High Energy Resolution X-ray Absorption Spectroscopy | Scientific Reports
Rational Design of Atomic Site Catalysts for Electrocatalytic Nitrogen Reduction Reaction: One Step Closer to Optimum Activity and Selectivity | SpringerLink
Measuring the Electronic Structure of Alloy Materials and Relating it to their Catalytic Performance
Initial atomic-scale oxidation pathways on a Ni–15Cr(100) alloy surface | npj Materials Degradation
Predicting the Catalytic Activity of Surface Oxidation Reactions by Ionization Energies
Methan Kultur Eichhörnchen b hammer and j.k norskov nature 376 1995 238 Du wirst besser werden Reichlich Pro
Initial atomic-scale oxidation pathways on a Ni–15Cr(100) alloy surface | npj Materials Degradation
