2021
DOI: 10.21203/rs.3.rs-354259/v1
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Dynamic restructuring of coordinatively unsaturated copper paddle wheel clusters drives CO2 reduction efficiently

Abstract: Coordinatively unsaturated metal sites in metal–organic frameworks (MOFs) hold promises for improving activity and selectivity of catalyst. As the building unit of many MOFs, copper paddle-wheel (CPW) is of great interest to function as activity sites for CO2 reduction due to the ability of copper cations to attract and activate CO2 molecules. However, little is known about the real structure of these active sites for their dynamic structural changes under realistic operating conditions. Here, we apply to desi… Show more

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Cited by 7 publications
(8 citation statements)
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“…11,19,20,23 The key role of Cu + in improving the selectivity towards C 2+ products has also been postulated in other high-performance Cu catalysts for CO 2 RR. 11,15,[18][19][20][31][32][33][34][35] We also mention here that while we had previously reported similar re-structuring and fragmentation in Cu 2 O cubes during reaction, 3 the re-precipitation of Cu 2 O particles when the potential was returned to OCP was not seen in those experiments (see ESI Fig. 10 † for a comparison with oxidized Cu islands).…”
Section: In Situ Observation Of the Electrocatalyst Transformations D...supporting
confidence: 52%
“…11,19,20,23 The key role of Cu + in improving the selectivity towards C 2+ products has also been postulated in other high-performance Cu catalysts for CO 2 RR. 11,15,[18][19][20][31][32][33][34][35] We also mention here that while we had previously reported similar re-structuring and fragmentation in Cu 2 O cubes during reaction, 3 the re-precipitation of Cu 2 O particles when the potential was returned to OCP was not seen in those experiments (see ESI Fig. 10 † for a comparison with oxidized Cu islands).…”
Section: In Situ Observation Of the Electrocatalyst Transformations D...supporting
confidence: 52%
“…2e shows the Cu K-edge XANES spectra with electron transitions from 1s to 4p states, including the 1s → 4p z transition and the 1s→ 4p xy transition. 37,38 The higher 1s → 4p z transition intensity indicates the gradual reduction of copper species in NiCu–OH. Furthermore, the Fourier-transform extended X-ray absorption fine structure (FT-EXAFS) spectra shown in Fig.…”
Section: Resultsmentioning
confidence: 99%
“…Interestingly by using a doping strategy, Cu δ+ species can be stabilized on Cu catalysts in situ electrochemically reduced from sulfur‐doped Cu MOFs, which contributed to *CO intermediate coupling step and efficient production of C 2 H 4 with selectivity up to 60% in H‐type cell. [ 140 ]…”
Section: Case Studies On Dynamic Evolution Of Active Sites In Co2rrmentioning
confidence: 99%
“…Interestingly by using a doping strategy, Cu δ+ species can be stabilized on Cu catalysts in situ electrochemically reduced from sulfur-doped Cu MOFs, which contributed to *CO intermediate coupling step and efficient production of C 2 H 4 with selectivity up to 60% in H-type cell. [140] Indeed, for Cu surface with mixed Cu + and Cu 0 site, CO 2 RR selectivity can be regulated, that mixed states favor C 2 product (C 2 H 4 and ethanol), while C 1 products (CO, formate, and methane) are preferably generated on Cu + -or Cu 0 -dominated surface. [33] It was demonstrated by Chou et al that the atop-adsorbed CO (CO atop ) intermediates were obtained on Cu 1 -dominated surface, which can be further hydrogenated to methane.…”
Section: (15 Of 30)mentioning
confidence: 99%