☆ 4.6 Review

Gas diffusion electrodes, reactor designs and key metrics of low-temperature CO2 electrolysers

NATURE ENERGY (2022)

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Summary: Formate production through CO2 electroreduction can be achieved at a high activity level using a catalyst synthesized with InP quantum dots. Surface indium metal sites on the catalyst adsorb and reduce CO2 molecules, while sulfur sites cleave water and provide protons, enabling high formate productivity.

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Summary: The study introduces a self-cleaning CO2 reduction strategy to enhance the efficiency of electrochemical conversion of CO2 and prevent carbonate salt formation, demonstrating a significant extension of the cathode's lifespan.

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Summary: This Review highlights the importance and challenges of electrochemical CO2 reduction for ethanol production, categorizing and evaluating the performance of copper-based catalysts to aid in the design of more efficient catalysts for selective ethanol formation.

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Summary: New technologies are needed to efficiently convert carbon dioxide into fuels and chemicals at near-ambient temperatures and pressures. Anion exchange membranes in zero-gap reactors show promise for mediating the electrochemical CO2 reduction reaction, but challenges remain in tailoring these membranes to meet the requirements of CO2RR systems.

NATURE ENERGY (2021)

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B. Endrodi et al.

Summary: Precipitates that form in the cathode of continuous-flow CO2 electrolysers hinder their long-term operation, but the alkali metals they are formed from actually boost activity. Researchers address this dichotomy by periodically infusing the cathode with alkaline cations, enabling the electrolyser to operate stably and efficiently for extended periods.

NATURE ENERGY (2021)

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Address the alkalinity problem'' in CO2 electrolysis with catalyst design and translation

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JOULE (2021)

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CO2 electrolysis to multicarbon products in strong acid

Jianan Erick Huang et al.

Summary: Carbon dioxide electroreduction (CO2R) is being actively studied as a promising route to convert carbon emissions to valuable chemicals and fuels. A study found that concentrating potassium cations in the vicinity of electrochemically active sites accelerates CO2 activation to enable efficient CO2R in acid. The research achieved a high CO2R efficiency on copper at pH <1 with a single-pass CO2 utilization of 77%.

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Summary: In this study, advanced manufacturing (AM) was shown to be an effective method for developing and testing novel electrochemical systems for chemical synthesis. Through an evolving series of vapor-fed reactor designs, improvements in performance for the carbon dioxide reduction reaction were achieved. The use of a dimensionless number (Da) helped identify mass transport regimes and led to significant experimental results, highlighting the potential of AM for accelerating reactor design and improving catalytic system performance.

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Is Cu instability during the CO2 reduction reaction governed by the applied potential or the local CO concentration?

Patrick Wilde et al.

Summary: Studies have found that bimetallic nanoparticles can generate high local CO concentrations during the electrochemical CO2 reduction reaction, leading to the instability of Cu catalysts. The results reveal an inherent trade-off between stability, selectivity, and activity in both systems.

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Over a 15.9% Solar-to-CO Conversion from Dilute CO2 Streams Catalyzed by Gold Nanoclusters Exhibiting a High CO2 Binding Affinity

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Catalyst synthesis under CO2 electroreduction favours faceting and promotes renewable fuels electrosynthesis

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The future of low-temperature carbon dioxide electrolysis depends on solving one basic problem

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Highly selective and scalable CO2 to CO - Electrolysis using coral-nanostructured Ag catalysts in zero-gap configuration

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Surface-functionalized palladium catalysts for electrochemical CO2reduction

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Efficient electroreduction of CO2 to CO by Ag-decorated S-doped g-C3N4/CNT nanocomposites at industrial scale current density

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Tandem Electrodes for Carbon Dioxide Reduction into C2+ Products at Simultaneously High Production Efficiency and Rate

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Nickel Nitrogen Carbon Molecular Catalysts for High Rate CO2 Electro-reduction to CO: On the Role of Carbon Substrate and Reaction Chemistry

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Insights into the carbon balance for CO2 electroreduction on Cu using gas diffusion electrode reactor designs

Ming Ma et al.

ENERGY & ENVIRONMENTAL SCIENCE (2020)

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Editorial Material Chemistry, Physical

Introductory Guide to Assembling and Operating Gas Diffusion Electrodes for Electrochemical CO2 Reduction

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ACS ENERGY LETTERS (2019)

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Binding Site Diversity Promotes CO2 Electroreduction to Ethanol

Yuguang C. Li et al.

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY (2019)

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Phil De Luna et al.

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Co-electrolysis of CO2 and glycerol as a pathway to carbon chemicals with improved technoeconomics due to low electricity consumption

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Atomically dispersed Fe3+ sites catalyze efficient CO2 electroreduction to CO

Jun Gu et al.

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Molecular electrocatalysts can mediate fast, selective CO2 reduction in a flow cell

Shaoxuan Ren et al.

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Multilayer Electrolyzer Stack Converts Carbon Dioxide to Gas Products at High Pressure with High Efficiency

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Catalyst Preoxidation and EDTA Electrolyte Additive Remedy Activity and Selectivity Declines During Electrochemical CO2 Reduction

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Efficient CO2 to CO electrolysis on solid Ni-N-C catalysts at industrial current densities

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Insights into the Low Overpotential Electroreduction of CO2 to CO on a Supported Gold Catalyst in an Alkaline Flow Electrolyzer

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