In-situ Studies of Copper-based CO2 Reduction Electrocatalysts by Scanning Transmission Soft X-ray Microscopy

Zhang, Chunyang; Eraky, Haytham; Tan, Shunquan; Hitchcock, Adam P.; Higgins, Drew

doi:10.26434/chemrxiv-2023-g2rj1

2023

DOI: 10.26434/chemrxiv-2023-g2rj1

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In-situ Studies of Copper-based CO2 Reduction Electrocatalysts by Scanning Transmission Soft X-ray Microscopy

Chunyang Zhang

Haytham Eraky

Shunquan Tan

et al.

Abstract: A micro-fluidic enabled electrochemical device has been developed to investigate electrochemically active materials under reaction conditions using in-situ scanning transmission soft X-ray microscopy (STXM). In-situ STXM measurements at the Cu 2p edge were conducted on electro-deposited Cu catalysts under electrochemical CO2 reduction (CO2R) conditions. The study provides detailed, quantitative results about the changes in the morphology and chemical structure (oxidation state) of the catalyst particles as a f… Show more

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“…This work was submitted as a preprint version to ChemRxiv to solicit feedback from the scientific community and establish priority for publication as this is a rapidly evolving field of research …”

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confidence: 99%

In Situ Studies of Copper-Based CO₂ Reduction Electrocatalysts by Scanning Transmission Soft X-ray Microscopy

Zhang,

Eraky,

Tan

et al. 2023

ACS Nano

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A microfluidic-enabled electrochemical device has been developed to investigate electrochemically active nanomaterials under reaction conditions using in situ scanning transmission soft X-ray microscopy (STXM). In situ STXM measurements were conducted on electrodeposited Cu catalysts under electrochemical CO 2 reduction (CO 2 R) conditions. The study provides detailed, quantitative results about the changes in the morphology and chemical structure of the catalytic nanoparticles as a function of applied potentials. The deposited Cu nanoparticles initially contain both Cu(0) and Cu(I). As an increasingly cathodic potential is applied, the Cu(I) species gradually convert to Cu(0) over the potential range of +0.4 to 0 V versus the reversible hydrogen electrode (V RHE ). During this process, Cu(I) particles of various sizes are converted to metallic Cu at different reaction rates and at slightly different potentials, indicating a degree of heterogeneity in the electrochemical response of discrete particles. At CO 2 R relevant potentials, only metallic Cu is observed, and the morphology of the particles is fairly stable within the spatial resolution limits of STXM (∼40 nm). We also report in situ STXM studies of a working electrode with relatively thick Cu-based electrodeposits. The spatially resolved chemical analysis identifies that Cu-oxide species can persist under CO 2 R conditions, but only when the catalytic nanoparticles are electronically isolated from the working electrode and therefore are catalytically irrelevant. In summary, in situ STXM is presented as a technique to gain advanced morphological and spatially resolved chemical structure insights into electrochemically active nanomaterials, which was used to provide improved understanding regarding Cu nanomaterial catalysts under CO 2 reduction conditions.

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confidence: 99%

In Situ Studies of Copper-Based CO₂ Reduction Electrocatalysts by Scanning Transmission Soft X-ray Microscopy

Zhang,

Eraky,

Tan

et al. 2023

ACS Nano

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In-situ Studies of Copper-based CO2 Reduction Electrocatalysts by Scanning Transmission Soft X-ray Microscopy

Cited by 1 publication

References 49 publications

In Situ Studies of Copper-Based CO₂ Reduction Electrocatalysts by Scanning Transmission Soft X-ray Microscopy

In Situ Studies of Copper-Based CO₂ Reduction Electrocatalysts by Scanning Transmission Soft X-ray Microscopy

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In-situ Studies of Copper-based CO2 Reduction Electrocatalysts by Scanning Transmission Soft X-ray Microscopy

Cited by 1 publication

References 49 publications