Kwan Yee Leung scite author profile

The electrochemical reduction of CO2 at Cu electrodes is a promising way of converting an industrial waste product, CO2, into value-added products. However, trace metal contamination has a substantial impact on product distributionboth on the measured distribution and the variance in measured distributions from experiment to experiment. In this study, we quantify the effect of Ag+ contamination, a pervasive trace metal contaminant from commonly used Ag/AgCl/KCl(sat.) single-junction reference electrodes, on product distributions for the CO2 reduction reaction at Cu electrodes. We show that trace amounts of leaked Ag+ from the reference electrode deposit on Cu electrodes during the CO2 reduction reaction, resulting in increased production of CO compared to other products. The Cu electrode is extremely sensitive to Ag+ contamination, and only 10 ppb of Ag+ ions (equivalent to 92.7 nM) is enough to measurably change the CO2 reduction product distribution. We propose that using a double-junction reference electrode is a simple way to mitigate this contamination by effectively decreasing the rate of Ag+ leakage.

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Controlled Substrate Transport to Electrocatalyst Active Sites for Enhanced Selectivity in the Carbon Dioxide Reduction Reaction

Liu

Leung

Michaud

et al. 2019

Comments on Inorganic Chemistry

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Tumor necrosis factor receptor expression and signal transduction in HIV-I-infected cells

Butera¹,

Roberts²,

Leung

et al. 1993

AIDS

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Radiation effects on the electrode and electrolyte of a lithium-ion battery

Tan

Lyons

Pan

et al. 2016

Journal of Power Sources

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Kwan Yee Leung

Determining the coordination environment and electronic structure of polymer-encapsulated cobalt phthalocyanine under electrocatalytic CO₂ reduction conditions using in situ X-Ray absorption spectroscopy

Effect and Prevention of Trace Ag⁺ Contamination from Ag/AgCl Reference Electrodes on CO₂ Reduction Product Distributions at Polycrystalline Copper Electrodes

Controlled Substrate Transport to Electrocatalyst Active Sites for Enhanced Selectivity in the Carbon Dioxide Reduction Reaction

Tumor necrosis factor receptor expression and signal transduction in HIV-I-infected cells

Radiation effects on the electrode and electrolyte of a lithium-ion battery

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Kwan Yee Leung

Determining the coordination environment and electronic structure of polymer-encapsulated cobalt phthalocyanine under electrocatalytic CO2 reduction conditions using in situ X-Ray absorption spectroscopy

Effect and Prevention of Trace Ag+ Contamination from Ag/AgCl Reference Electrodes on CO2 Reduction Product Distributions at Polycrystalline Copper Electrodes

Controlled Substrate Transport to Electrocatalyst Active Sites for Enhanced Selectivity in the Carbon Dioxide Reduction Reaction

Tumor necrosis factor receptor expression and signal transduction in HIV-I-infected cells

Radiation effects on the electrode and electrolyte of a lithium-ion battery

Contact Info

Product

Resources

About

Determining the coordination environment and electronic structure of polymer-encapsulated cobalt phthalocyanine under electrocatalytic CO₂ reduction conditions using in situ X-Ray absorption spectroscopy

Effect and Prevention of Trace Ag⁺ Contamination from Ag/AgCl Reference Electrodes on CO₂ Reduction Product Distributions at Polycrystalline Copper Electrodes