Highly Efficient Electroreduction of CO2 to Methanol on Palladium–Copper Bimetallic Aerogels

Lu Lu; Xiaofu Sun; Jun Ma; Dexin Yang; Haihong Wu; Bingxing Zhang; Jianling Zhang; Buxing Han

doi:10.1002/anie.201808964

Highly Efficient Electroreduction of CO₂ to Methanol on Palladium–Copper Bimetallic Aerogels

Lu Lu, Xiaofu Sun, Jun Ma, Dexin Yang, Haihong Wu, Bingxing Zhang, Jianling Zhang, Buxing Han

School of Chemistry and Molecular Engineering

Research output: Contribution to journal › Article › peer-review

291 Scopus citations

Abstract

Electrochemical reduction of CO₂ to CH₃OH is of great interest. Aerogels have fine inorganic superstructure with high porosity and are known to be exceptional materials. Now a Pd−Cu bimetallic aerogel electrocatalyst has been developed for conversion of CO₂ into CH₃OH. The current density and Faradaic efficiency of CH₃OH can be as high as 31.8 mA cm⁻² and 80.0 % over the Pd₈₃Cu₁₇ aerogel at a very low overpotential (0.24 V). The superior performance of the electrocatalyst results from efficient adsorption and stabilization of the CO₂ radical anion, high Pd⁰/Pd^II and Cu^I+Cu⁰/Cu^II ratios, and sufficient Pd/Cu grain boundaries of aerogel nanochains.

Original language	English
Pages (from-to)	14149-14153
Number of pages	5
Journal	Angewandte Chemie - International Edition
Volume	57
Issue number	43
DOIs	https://doi.org/10.1002/anie.201808964
State	Published - 22 Oct 2018

Keywords

aerogels
carbon dioxide
electrocatalysis
ionic liquids
methanol

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title = "Highly Efficient Electroreduction of CO2 to Methanol on Palladium–Copper Bimetallic Aerogels",

abstract = "Electrochemical reduction of CO2 to CH3OH is of great interest. Aerogels have fine inorganic superstructure with high porosity and are known to be exceptional materials. Now a Pd−Cu bimetallic aerogel electrocatalyst has been developed for conversion of CO2 into CH3OH. The current density and Faradaic efficiency of CH3OH can be as high as 31.8 mA cm−2 and 80.0 \% over the Pd83Cu17 aerogel at a very low overpotential (0.24 V). The superior performance of the electrocatalyst results from efficient adsorption and stabilization of the CO2 radical anion, high Pd0/PdII and CuI+Cu0/CuII ratios, and sufficient Pd/Cu grain boundaries of aerogel nanochains.",

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T1 - Highly Efficient Electroreduction of CO2 to Methanol on Palladium–Copper Bimetallic Aerogels

AU - Lu, Lu

AU - Sun, Xiaofu

AU - Ma, Jun

AU - Yang, Dexin

AU - Wu, Haihong

AU - Zhang, Bingxing

AU - Zhang, Jianling

AU - Han, Buxing

PY - 2018/10/22

Y1 - 2018/10/22

N2 - Electrochemical reduction of CO2 to CH3OH is of great interest. Aerogels have fine inorganic superstructure with high porosity and are known to be exceptional materials. Now a Pd−Cu bimetallic aerogel electrocatalyst has been developed for conversion of CO2 into CH3OH. The current density and Faradaic efficiency of CH3OH can be as high as 31.8 mA cm−2 and 80.0 % over the Pd83Cu17 aerogel at a very low overpotential (0.24 V). The superior performance of the electrocatalyst results from efficient adsorption and stabilization of the CO2 radical anion, high Pd0/PdII and CuI+Cu0/CuII ratios, and sufficient Pd/Cu grain boundaries of aerogel nanochains.

AB - Electrochemical reduction of CO2 to CH3OH is of great interest. Aerogels have fine inorganic superstructure with high porosity and are known to be exceptional materials. Now a Pd−Cu bimetallic aerogel electrocatalyst has been developed for conversion of CO2 into CH3OH. The current density and Faradaic efficiency of CH3OH can be as high as 31.8 mA cm−2 and 80.0 % over the Pd83Cu17 aerogel at a very low overpotential (0.24 V). The superior performance of the electrocatalyst results from efficient adsorption and stabilization of the CO2 radical anion, high Pd0/PdII and CuI+Cu0/CuII ratios, and sufficient Pd/Cu grain boundaries of aerogel nanochains.

KW - aerogels

KW - carbon dioxide

KW - electrocatalysis

KW - ionic liquids

KW - methanol

UR - https://www.scopus.com/pages/publications/85054323776

U2 - 10.1002/anie.201808964

DO - 10.1002/anie.201808964

M3 - 文章

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JO - Angewandte Chemie - International Edition

JF - Angewandte Chemie - International Edition

IS - 43

ER -

Highly Efficient Electroreduction of CO₂ to Methanol on Palladium–Copper Bimetallic Aerogels

Abstract

Keywords

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