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Nanoporous Gold as a Highly Selective and Active Carbon Dioxide Reduction Catalyst

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Nanoporous Gold as a Highly Selective and Active Carbon Dioxide Reduction Catalyst

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Quasi-operando Transmission Electron Microscopy Diagnostics for Electrocatalytic Processes in Liquids

Pathways to enhance electrochemical CO2 reduction identified through direct pore-level modeling

Insights into Electrocatalyst Transformations Studied in Real Time with Electrochemical Liquid-Phase Transmission Electron Microscopy

Review on Uric Acid Recognition by MOFs with a Future in Machine Learning

Morphology and Transport Characterization of Catalyst Layers for CO2 Reduction

Active sites on copper-based catalysts for electrochemical CO2 reduction selectively to C2+ products

Electron probing of oxygen-evolving oxide catalysts

Revisiting the Impact of Morphology and Oxidation State of Cu on CO2 Reduction Using Electrochemical Flow Cell

Tandem electrocatalytic CO2 reduction with Fe-porphyrins and Cu nanocubes enhances ethylene production

The design and synthesis of nanostructured hydrogen oxidation reaction electrocatalysts for hydroxide exchange membrane fuel cells