Photoelectrocatalytic Utilization of CO<sub>2</sub>: A Big Show of Si‐based Photoelectrodes

Yu, Jiacheng; Hao, Xue; Mu, Lixuan; Shi, Wensheng; She, Guangwei

doi:10.1002/chem.202303552

Chemistry A European J

2024

DOI: 10.1002/chem.202303552

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Photoelectrocatalytic Utilization of CO₂: A Big Show of Si‐based Photoelectrodes

Jiacheng Yu,

Xue Hao,

Lixuan Mu

et al.

Abstract: CO2 is a greenhouse gas that contributes to environmental deterioration; however, it can also be utilized as an abundant C1 resource for the production of valuable chemicals. Solar‐driven photoelectrocatalytic (PEC) CO2 utilization represents an advanced technology for the resourcing of CO2. The key to achieving PEC CO2 utilization lies in high‐performance semiconductor photoelectrodes. Si‐based photoelectrodes have attracted increasing attention in the field of PEC CO2 utilization due to their suitable band g… Show more

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Cited by 2 publications

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Ag_xCu_100−x Decorated Si Micropillars as Photocathodes for the Reduction of CO₂

Chaliyawala,

Bastide,

Cachet‐Vivier

et al. 2024

ChemElectroChem

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This work reports the fabrication of p‐type Si micropillar (MP) substrates decorated with AgxCu100−x bimetallic nanoparticles and their application as photocathodes for CO2 photoelectrochemical reduction. Metal deposition by metal‐assisted chemical etching is chosen as the nanoparticle synthesis method, to explore for the first time its capabilities for 3D structures. It is found to be applicable, allowing a good control of the composition, with nanoparticles distributed along the entire MP, but with a coverage gradient from top to bottom. The AgxCu100−x decorated Si MPs photocathodes show enhanced light trapping compared to flat Si, with 45 % lower reflectance values in the visible and significantly higher catalytic activity, in terms of photocurrent density, overpotential and power savings (4.7 % for Ag50Cu50/Si MPs vs. 3 % for Ag50Cu50/flat‐Si). Si MPs coated with Ag50Cu50 and Ag20Cu80 provide the highest gain in potential (440 and 600 mV vs. bare Si MPs) and an increased selectivity towards high energy density products (i. e., CH4) compared to monometallic photocathodes. These are promising features for efficient light‐driven CO2 conversion. However, a significant metal loss is observed during photoelectrolysis, especially for Cu‐rich compositions. Suggestions to improve the photocathode performance in terms of metal coating homogeneity and catalyst stability are presented.

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Ag_xCu_100−x Decorated Si Micropillars as Photocathodes for the Reduction of CO₂

Chaliyawala,

Bastide,

Cachet‐Vivier

et al. 2024

ChemElectroChem

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show abstract

Enhanced photo-electro catalytic CO2 conversion using transition metal doped TiO2 nanoparticles

Yempally,

Nassar,

Lakshmi

et al. 2024

Journal of Photochemistry and Photobiology A: Chemistry

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Photoelectrocatalytic Utilization of CO₂: A Big Show of Si‐based Photoelectrodes

Cited by 2 publications

References 163 publications

Ag_xCu_100−x Decorated Si Micropillars as Photocathodes for the Reduction of CO₂

Ag_xCu_100−x Decorated Si Micropillars as Photocathodes for the Reduction of CO₂

Enhanced photo-electro catalytic CO2 conversion using transition metal doped TiO2 nanoparticles

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Photoelectrocatalytic Utilization of CO2: A Big Show of Si‐based Photoelectrodes

Cited by 2 publications

References 163 publications

AgxCu100−x Decorated Si Micropillars as Photocathodes for the Reduction of CO2

AgxCu100−x Decorated Si Micropillars as Photocathodes for the Reduction of CO2

Enhanced photo-electro catalytic CO2 conversion using transition metal doped TiO2 nanoparticles

Contact Info

Product

Resources

About

Photoelectrocatalytic Utilization of CO₂: A Big Show of Si‐based Photoelectrodes

Ag_xCu_100−x Decorated Si Micropillars as Photocathodes for the Reduction of CO₂

Ag_xCu_100−x Decorated Si Micropillars as Photocathodes for the Reduction of CO₂