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Bi‐Functional Fe<sub>3</sub>O<sub>4</sub>/Au/CoFe‐LDH Sandwich‐Structured Electrocatalyst for Asymmetrical Electrolyzer with Low Operation Voltage

Fengchao Sun, Yan Zhou, Zihan You, Hanhan Xia, Yongxiao Tuo, Shutao Wang, Cuiping Jia, Jun Zhang

2021Small58 citationsDOI

Abstract

Abstract The reduction of the overall electrolysis potential to produce hydrogen is a critical target for fabricating applicable hydrogen evolution cells. Sandwich‐structured Fe 3 O 4 /Au/CoFe‐LDH is synthesized via a spontaneous galvanic displacement reaction. A series of structural characterizations indicate the successful synthesis of sandwich‐structured Fe 3 O 4 /Au/CoFe‐LDH electrocatalyst. The trace amount of Au laying between Fe 3 O 4 and CoFe‐LDH significantly improves the intrinsic conductivity and catalytic activity of the composite catalyst. In‐depth investigations indicate that Fe 3 O 4 and CoFe‐LDH are responsible for the electrocatalytic hydrogen evolution reaction (HER) whereas Au is responsible for the electrocatalytic glucose oxidation (GOR). The electrocatalytic tests indicate Fe 3 O 4 /Au/CoFe‐LDH offers excellent electrocatalytic activity and stability for both HER and GOR, even at high current density (i.e., 1000 mA cm −2 ). Further electrochemistry examinations in a two‐compartment cell with a two‐electrode configuration show that Fe 3 O 4 /Au/CoFe‐LDH can significantly reduce the overall potential for this asymmetrical cell, with only 0.48 and 0.89 V required to achieve 10 mA cm −2 current density with and without iR ‐compensation, which is the lowest overall potential requirement ever reported. The design and synthesis of Fe 3 O 4 /Au/CoFe‐LDH pave a new way to electrochemically produce hydrogen and gluconate under extremely low cell voltage, which can readily match with a variety of solar cells.

Topics & Concepts

ElectrocatalystElectrochemistryElectrolysisCatalysisMaterials scienceSingle displacement reactionGalvanic cellCell voltageHydrogenElectrodeRedoxChemical engineeringNanotechnologyInorganic chemistryChemistryAnodeMetallurgyPhysical chemistryElectrolyteOrganic chemistryEngineeringElectrocatalysts for Energy ConversionAdvanced battery technologies researchAdvanced Battery Materials and Technologies
Bi‐Functional Fe<sub>3</sub>O<sub>4</sub>/Au/CoFe‐LDH Sandwich‐Structured Electrocatalyst for Asymmetrical Electrolyzer with Low Operation Voltage | Litcius