2023
DOI: 10.3390/nano13111773
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Quantitative In Situ Monitoring of Cu-Atom Release by Cu2O Nanocatalysts under Photocatalytic CO2 Reduction Conditions: New Insights into the Photocorrosion Mechanism

Abstract: Cu2O is among the most promising photocatalysts for CO2 reduction, however its photocorrosion remains a standalone challenge. Herein, we present an in situ study of the release of Cu ions from Cu2O nanocatalysts under photocatalytic conditions in the presence of HCO3 as a catalytic substrate in H2O. The Cu-oxide nanomaterials were produced by Flame Spray Pyrolysis (FSP) technology. Using Electron Paramagnetic Resonance (EPR) spectroscopy in tandem with analytical Anodic Stripping Voltammetry (ASV), we monitore… Show more

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Cited by 8 publications
(8 citation statements)
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“…Starting from material #Cu1, i.e., D 1 /D 2 (O 2 /CH 4 ):5/0, we have the formation of 92% CuO (JCPDS 48-1548) and 8% Cu 2 O (JCPDS 07-9767). The Cu 2 O-fraction formation is attributed to the slightly anoxic conditions created by the N 2 sheath 16 , 39 , 41 i.e., since D 2 (CH 4 ) = 0 in this case. By changing D 1 /D 2 to a more reducing profile 4/1, see material #Cu2, we have a decrease of CuO phase percentage, favoring the formation of 40% Cu 2 O.…”
Section: Resultsmentioning
confidence: 76%
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“…Starting from material #Cu1, i.e., D 1 /D 2 (O 2 /CH 4 ):5/0, we have the formation of 92% CuO (JCPDS 48-1548) and 8% Cu 2 O (JCPDS 07-9767). The Cu 2 O-fraction formation is attributed to the slightly anoxic conditions created by the N 2 sheath 16 , 39 , 41 i.e., since D 2 (CH 4 ) = 0 in this case. By changing D 1 /D 2 to a more reducing profile 4/1, see material #Cu2, we have a decrease of CuO phase percentage, favoring the formation of 40% Cu 2 O.…”
Section: Resultsmentioning
confidence: 76%
“…Photocorrosion can be due to reduction of Cu 2 O to Cu 0 , however it is the oxidation of Cu 2 O to CuO 14 , that is considered as primary source of lattice deterioration i.e. via formation of Cu 2+ -ions 16 . To address photocorrosion, several works discuss the controlled synthesis of stable Cu NPs 17 19 based on strategies e.g.…”
Section: Introductionmentioning
confidence: 99%
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“…The two A-FSP configurations in Figure 1 A,B are codenamed Radial- and Axial-A-FSP; these define the way in which CH 4 is introduced, respectively. In all cases, the FSP-nozzle was enclosed by a cylindrical metal chamber consisting of two concentric tubes, a sinter metal tube (outer tube) and a perforated metal tube (inner tube) to isolate the flame from the surrounding atmosphere, as has been described in detail in previous works [ 16 , 26 , 27 , 29 ]. The so-produced materials (listed in Table 1 ) are codenamed STO-R and STO-A for Radial- and Axial-A-FSP, respectively.…”
Section: Methodsmentioning
confidence: 99%