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Publications by Wilson A. Smith
Lateral Adsorbate Interactions Inhibit HCOO- While Promoting CO Selectivity for CO2 Electrocatalysis on Ag
Angewandte Chemie
Tenacious Mass Transfer Limitations Drive Catalytic Selectivity During Electrochemical Carbon Dioxide Reduction
Electrochemical CO2 Reduction on Nanostructured Metal Electrodes: Fact or Defect?
Tenacious Mass Transfer Limitations Drive Catalytic Selectivity During Electrochemical Carbon Dioxide Reduction
Electrochemical CO2 Reduction on Nanostructured Metal Electrodes: Fact or Defect?
Related publications
A Thermodynamic Investigation of Adsorbate-Adsorbate Interactions of Carbon Dioxide on Nanostructured Carbons
AICHE Journal
Biotechnology
Environmental Engineering
Chemical Engineering
Interplay of Adsorbate-Adsorbate and Adsorbate-Substrate Interactions in Self-Assembled Molecular Surface Nanostructures
Nano Research
Electronic Engineering
Nanotechnology
Nanoscience
Electrical
Materials Science
Tuning PtIr Interactions for NH3 Electrocatalysis
Density Functional Theory Study of Ag-Cluster/Co Interactions
Lecture Notes in Computer Science
Computer Science
Theoretical Computer Science
Strong Substrate Mediation of Attractive Lateral Interactions of CO on Cu(110)
Langmuir
Surfaces
Materials Science
Condensed Matter Physics
Interfaces
Electrochemistry
Spectroscopy
Medicine
Chiral Steering of Molecular Organization in the Limit of Weak Adsorbate−Substrate Interactions: Enantiopure and Racemic Tartaric Acid Domains on Ag(111)
Journal of Physical Chemistry C
Surfaces
Energy
Nanoscience
Theoretical Chemistry
Optical
Magnetic Materials
Films
Nanotechnology
Electronic
Coatings
Physical
Adsorbate/Absorbate Interactions With Organic Ferroelectric Polymers
Journal of Electron Spectroscopy and Related Phenomena
Condensed Matter Physics
Optics
Radiation
Molecular Physics,
Spectroscopy
Theoretical Chemistry
Optical
Atomic
Magnetic Materials
Electronic
Physical
Hollow Porous Ag Spherical Catalysts for Highly Efficient and Selective Electrocatalytic Reduction of CO2 to CO
Preferentially Oriented Ag Nanocrystals With Extremely High Activity and Faradaic Efficiency for CO2 Electrochemical Reduction to CO