Unexpected high selectivity for acetate formation from CO(2) reduction with copper based 2D hybrid catalysts at ultralow potentials

Copper-based catalysts are efficient for CO(2) reduction affording commodity chemicals. However, Cu(i) active species are easily reduced to Cu(0) during the CO(2)RR, leading to a rapid decay of catalytic performance. Herein, we report a hybrid-catalyst that firmly anchors 2D-Cu metallic dots on F-do...

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Autores principales: Cai, Rongming, Sun, Mingzi, Ren, Jiazheng, Ju, Min, Long, Xia, Huang, Bolong, Yang, Shihe
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Royal Society of Chemistry 2021
Materias:
Chemistry
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8635182/
https://www.ncbi.nlm.nih.gov/pubmed/34976359
http://dx.doi.org/10.1039/d1sc05441d
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author Cai, Rongming
Sun, Mingzi
Ren, Jiazheng
Ju, Min
Long, Xia
Huang, Bolong
Yang, Shihe
author_facet Cai, Rongming
Sun, Mingzi
Ren, Jiazheng
Ju, Min
Long, Xia
Huang, Bolong
Yang, Shihe
author_sort Cai, Rongming
collection PubMed
description Copper-based catalysts are efficient for CO(2) reduction affording commodity chemicals. However, Cu(i) active species are easily reduced to Cu(0) during the CO(2)RR, leading to a rapid decay of catalytic performance. Herein, we report a hybrid-catalyst that firmly anchors 2D-Cu metallic dots on F-doped Cu(x)O nanoplates (Cu(x)OF), synthesized by electrochemical-transformation under the same conditions as the targeted CO(2)RR. The as-prepared Cu/Cu(x)OF hybrid showed unusual catalytic activity towards the CO(2)RR for CH(3)COO(−) generation, with a high FE of 27% at extremely low potentials. The combined experimental and theoretical results show that nanoscale hybridization engenders an effective s,p-d coupling in Cu/Cu(x)OF, raising the d-band center of Cu and thus enhancing electroactivity and selectivity for the acetate formation. This work highlights the use of electronic interactions to bias a hybrid catalyst towards a particular pathway, which is critical for tuning the activity and selectivity of copper-based catalysts for the CO(2)RR.
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spelling pubmed-86351822021-12-30 Unexpected high selectivity for acetate formation from CO(2) reduction with copper based 2D hybrid catalysts at ultralow potentials Cai, Rongming Sun, Mingzi Ren, Jiazheng Ju, Min Long, Xia Huang, Bolong Yang, Shihe Chem Sci Chemistry Copper-based catalysts are efficient for CO(2) reduction affording commodity chemicals. However, Cu(i) active species are easily reduced to Cu(0) during the CO(2)RR, leading to a rapid decay of catalytic performance. Herein, we report a hybrid-catalyst that firmly anchors 2D-Cu metallic dots on F-doped Cu(x)O nanoplates (Cu(x)OF), synthesized by electrochemical-transformation under the same conditions as the targeted CO(2)RR. The as-prepared Cu/Cu(x)OF hybrid showed unusual catalytic activity towards the CO(2)RR for CH(3)COO(−) generation, with a high FE of 27% at extremely low potentials. The combined experimental and theoretical results show that nanoscale hybridization engenders an effective s,p-d coupling in Cu/Cu(x)OF, raising the d-band center of Cu and thus enhancing electroactivity and selectivity for the acetate formation. This work highlights the use of electronic interactions to bias a hybrid catalyst towards a particular pathway, which is critical for tuning the activity and selectivity of copper-based catalysts for the CO(2)RR. The Royal Society of Chemistry 2021-11-09 /pmc/articles/PMC8635182/ /pubmed/34976359 http://dx.doi.org/10.1039/d1sc05441d Text en This journal is © The Royal Society of Chemistry https://creativecommons.org/licenses/by-nc/3.0/
spellingShingle Chemistry
Cai, Rongming
Sun, Mingzi
Ren, Jiazheng
Ju, Min
Long, Xia
Huang, Bolong
Yang, Shihe
Unexpected high selectivity for acetate formation from CO(2) reduction with copper based 2D hybrid catalysts at ultralow potentials
title Unexpected high selectivity for acetate formation from CO(2) reduction with copper based 2D hybrid catalysts at ultralow potentials
title_full Unexpected high selectivity for acetate formation from CO(2) reduction with copper based 2D hybrid catalysts at ultralow potentials
title_fullStr Unexpected high selectivity for acetate formation from CO(2) reduction with copper based 2D hybrid catalysts at ultralow potentials
title_full_unstemmed Unexpected high selectivity for acetate formation from CO(2) reduction with copper based 2D hybrid catalysts at ultralow potentials
title_short Unexpected high selectivity for acetate formation from CO(2) reduction with copper based 2D hybrid catalysts at ultralow potentials
title_sort unexpected high selectivity for acetate formation from co(2) reduction with copper based 2d hybrid catalysts at ultralow potentials
topic Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8635182/
https://www.ncbi.nlm.nih.gov/pubmed/34976359
http://dx.doi.org/10.1039/d1sc05441d
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AT sunmingzi unexpectedhighselectivityforacetateformationfromco2reductionwithcopperbased2dhybridcatalystsatultralowpotentials
AT renjiazheng unexpectedhighselectivityforacetateformationfromco2reductionwithcopperbased2dhybridcatalystsatultralowpotentials
AT jumin unexpectedhighselectivityforacetateformationfromco2reductionwithcopperbased2dhybridcatalystsatultralowpotentials
AT longxia unexpectedhighselectivityforacetateformationfromco2reductionwithcopperbased2dhybridcatalystsatultralowpotentials
AT huangbolong unexpectedhighselectivityforacetateformationfromco2reductionwithcopperbased2dhybridcatalystsatultralowpotentials
AT yangshihe unexpectedhighselectivityforacetateformationfromco2reductionwithcopperbased2dhybridcatalystsatultralowpotentials

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