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Literature DB >> 31980521

Selective reduction of CO to acetaldehyde with CuAg electrocatalysts.

Lei Wang¹, Drew C Higgins^1,2,3, Yongfei Ji¹, Carlos G Morales-Guio¹, Karen Chan^2,4, Christopher Hahn⁵, Thomas F Jaramillo^6,2.

Abstract

Electrochemical CO reduction can serve as a sequential step in the transformation of CO2 into multicarbon fuels and chemicals. In this study, we provide insights on how to steer selectivity for CO reduction almost exclusively toward a single multicarbon oxygenate by carefully controlling the catalyst composition and its surrounding reaction conditions. Under alkaline reaction conditions, we demonstrate that planar CuAg electrodes can reduce CO to acetaldehyde with over 50% Faradaic efficiency and over 90% selectivity on a carbon basis at a modest electrode potential of -0.536 V vs. the reversible hydrogen electrode. The Faradaic efficiency to acetaldehyde was further enhanced to 70% by increasing the roughness factor of the CuAg electrode. Density functional theory calculations indicate that Ag ad-atoms on Cu weaken the binding energy of the reduced acetaldehyde intermediate and inhibit its further reduction to ethanol, demonstrating that the improved selectivity to acetaldehyde is due to the electronic effect from Ag incorporation. These findings will aid in the design of catalysts that are able to guide complex reaction networks and achieve high selectivity for the desired product.

Entities: Chemical

Keywords: CO reduction; CO2 reduction; bimetallics; electrocatalysis; heterogeneous catalysis

Year: 2020 PMID： 31980521 PMCID： PMC7293614 DOI： 10.1073/pnas.1821683117

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

34 in total

1. Promoter Effects of Alkali Metal Cations on the Electrochemical Reduction of Carbon Dioxide.

Authors: Joaquin Resasco; Leanne D Chen; Ezra Clark; Charlie Tsai; Christopher Hahn; Thomas F Jaramillo; Karen Chan; Alexis T Bell
Journal: J Am Chem Soc Date: 2017-08-03 Impact factor: 15.419

2. Enhanced electrocatalytic CO₂ reduction via field-induced reagent concentration.

Authors: Min Liu; Yuanjie Pang; Bo Zhang; Phil De Luna; Oleksandr Voznyy; Jixian Xu; Xueli Zheng; Cao Thang Dinh; Fengjia Fan; Changhong Cao; F Pelayo García de Arquer; Tina Saberi Safaei; Adam Mepham; Anna Klinkova; Eugenia Kumacheva; Tobin Filleter; David Sinton; Shana O Kelley; Edward H Sargent
Journal: Nature Date: 2016-08-03 Impact factor: 49.962

Review 3. Defining a Materials Database for the Design of Copper Binary Alloy Catalysts for Electrochemical CO₂ Conversion.

Authors: Chan Woo Lee; Ki Dong Yang; Dae-Hyun Nam; Jun Ho Jang; Nam Heon Cho; Sang Won Im; Ki Tae Nam
Journal: Adv Mater Date: 2018-01-24 Impact factor: 30.849

4. Size-dependent electrocatalytic reduction of CO2 over Pd nanoparticles.

Authors: Dunfeng Gao; Hu Zhou; Jing Wang; Shu Miao; Fan Yang; Guoxiong Wang; Jianguo Wang; Xinhe Bao
Journal: J Am Chem Soc Date: 2015-03-11 Impact factor: 15.419

5. Electroreduction of carbon monoxide to liquid fuel on oxide-derived nanocrystalline copper.

Authors: Christina W Li; Jim Ciston; Matthew W Kanan
Journal: Nature Date: 2014-04-09 Impact factor: 49.962

6. Tuning of Silver Catalyst Mesostructure Promotes Selective Carbon Dioxide Conversion into Fuels.

Authors: Youngmin Yoon; Anthony Shoji Hall; Yogesh Surendranath
Journal: Angew Chem Int Ed Engl Date: 2016-11-10 Impact factor: 15.336

7. Two pathways for the formation of ethylene in CO reduction on single-crystal copper electrodes.

Authors: Klaas Jan P Schouten; Zisheng Qin; Elena Pérez Gallent; Marc T M Koper
Journal: J Am Chem Soc Date: 2012-06-12 Impact factor: 15.419

8. Using a one-electron shuttle for the multielectron reduction of CO2 to methanol: kinetic, mechanistic, and structural insights.

Authors: Emily Barton Cole; Prasad S Lakkaraju; David M Rampulla; Amanda J Morris; Esta Abelev; Andrew B Bocarsly
Journal: J Am Chem Soc Date: 2010-08-25 Impact factor: 15.419

9. Electrochemical CO₂ Reduction over Compressively Strained CuAg Surface Alloys with Enhanced Multi-Carbon Oxygenate Selectivity.

Authors: Ezra L Clark; Christopher Hahn; Thomas F Jaramillo; Alexis T Bell
Journal: J Am Chem Soc Date: 2017-10-25 Impact factor: 15.419

10. Understanding trends in electrochemical carbon dioxide reduction rates.

Authors: Xinyan Liu; Jianping Xiao; Hongjie Peng; Xin Hong; Karen Chan; Jens K Nørskov
Journal: Nat Commun Date: 2017-05-22 Impact factor: 14.919

7 in total

1. A colloquium on the status and challenges in science for decarbonizing our energy landscape.

Authors: Richard Eisenberg; Harry B Gray; George W Crabtree
Journal: Proc Natl Acad Sci U S A Date: 2020-05-18 Impact factor: 11.205

Review 2. Silver nanomaterials: synthesis and (electro/photo) catalytic applications.

Authors: Rakesh Kumar Sharma; Sneha Yadav; Sriparna Dutta; Hanumant B Kale; Indrajeet R Warkad; Radek Zbořil; Rajender S Varma; Manoj B Gawande
Journal: Chem Soc Rev Date: 2021-10-18 Impact factor: 54.564

3. Copper sulfide as the cation exchange template for synthesis of bimetallic catalysts for CO₂ electroreduction.

Authors: Jinghan Li; Junrui Li; Chaochao Dun; Wenshu Chen; Di Zhang; Jiajun Gu; Jeffrey J Urban; Joel W Ager
Journal: RSC Adv Date: 2021-07-07 Impact factor: 4.036

4. Operando Investigation of Ag-Decorated Cu₂ O Nanocube Catalysts with Enhanced CO₂ Electroreduction toward Liquid Products.

Authors: Antonia Herzog; Arno Bergmann; Hyo Sang Jeon; Janis Timoshenko; Stefanie Kühl; Clara Rettenmaier; Mauricio Lopez Luna; Felix T Haase; Beatriz Roldan Cuenya
Journal: Angew Chem Int Ed Engl Date: 2021-02-22 Impact factor: 15.336

Selective reduction of CO to acetaldehyde with CuAg electrocatalysts.

1. Promoter Effects of Alkali Metal Cations on the Electrochemical Reduction of Carbon Dioxide.

2. Enhanced electrocatalytic CO₂ reduction via field-induced reagent concentration.

Review 3. Defining a Materials Database for the Design of Copper Binary Alloy Catalysts for Electrochemical CO₂ Conversion.

4. Size-dependent electrocatalytic reduction of CO2 over Pd nanoparticles.

5. Electroreduction of carbon monoxide to liquid fuel on oxide-derived nanocrystalline copper.

6. Tuning of Silver Catalyst Mesostructure Promotes Selective Carbon Dioxide Conversion into Fuels.

7. Two pathways for the formation of ethylene in CO reduction on single-crystal copper electrodes.

8. Using a one-electron shuttle for the multielectron reduction of CO2 to methanol: kinetic, mechanistic, and structural insights.

9. Electrochemical CO₂ Reduction over Compressively Strained CuAg Surface Alloys with Enhanced Multi-Carbon Oxygenate Selectivity.

10. Understanding trends in electrochemical carbon dioxide reduction rates.

1. A colloquium on the status and challenges in science for decarbonizing our energy landscape.

Review 2. Silver nanomaterials: synthesis and (electro/photo) catalytic applications.

3. Copper sulfide as the cation exchange template for synthesis of bimetallic catalysts for CO₂ electroreduction.

4. Operando Investigation of Ag-Decorated Cu₂ O Nanocube Catalysts with Enhanced CO₂ Electroreduction toward Liquid Products.

5. Trends in oxygenate/hydrocarbon selectivity for electrochemical CO₍₂₎ reduction to C₂ products.

6. Unraveling the electrocatalytic reduction mechanism of enols on copper in aqueous media.

7. Efficient electroreduction of CO₂ to C₂₊ products on CeO₂ modified CuO.

Review 3. Defining a Materials Database for the Design of Copper Binary Alloy Catalysts for Electrochemical CO2 Conversion.

Review 2. Silver nanomaterials: synthesis and (electro/photo) catalytic applications.

Review 3. Defining a Materials Database for the Design of Copper Binary Alloy Catalysts for Electrochemical CO₂ Conversion.