2021
DOI: 10.1016/j.electacta.2021.138550
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Stabilization and activation of Pd nanoparticles for efficient CO2-reduction: Importance of their generation within supramolecular network of tridentate Schiff-base ligands with N,N coordination sites

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Cited by 9 publications
(11 citation statements)
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“…The presence of the cacodylate caps and the ceria and thoria‐type components render the two cationic clusters Pd 6 Ce 8 and Pd 6 Th 8 electrochemically inert, unless more negative potentials are applied. However, the Pd II ions eventually undergo irreversible reduction during a voltammetric negative potential scan to form metallic palladium [37] (at −0.2 V, as demonstrated for Pd 6 Ce 8 , Figure S16). The generated Pd 0 sites are expected to behave similarly to Pt and induce redox transitions [38, 39] of otherwise highly‐inert arsenic oxo species (Figure S17).…”
Section: Resultsmentioning
confidence: 95%
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“…The presence of the cacodylate caps and the ceria and thoria‐type components render the two cationic clusters Pd 6 Ce 8 and Pd 6 Th 8 electrochemically inert, unless more negative potentials are applied. However, the Pd II ions eventually undergo irreversible reduction during a voltammetric negative potential scan to form metallic palladium [37] (at −0.2 V, as demonstrated for Pd 6 Ce 8 , Figure S16). The generated Pd 0 sites are expected to behave similarly to Pt and induce redox transitions [38, 39] of otherwise highly‐inert arsenic oxo species (Figure S17).…”
Section: Resultsmentioning
confidence: 95%
“…Furthermore, due to the presence of interstitial Pd 0 sites, both pre‐reduced Pd 6 Ce 8 and Pd 6 Th 8 exhibit electrocatalytic activity toward CO 2 ‐reduction [37, 41–43] in the semi‐neutral medium of 0.1 mol dm −3 phosphate buffer of pH 6.1. Simply judging from the appearance of the well‐defined and sound CO 2 ‐reduction peak at the less negative (than typically reported) [37, 41, 42] potential of −0.3 V (Figure 4C) for the pre‐reduced Pd 6 Ce 8 , it can be considered as a potent electrocatalyst for the reduction of CO 2 . It is likely that the self‐poisoning (with CO) of Pd surfaces becomes less pronounced in such nanoengineered ceria‐encapulated Pd clusters.…”
Section: Resultsmentioning
confidence: 99%
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“…Furthermore, due to the presence of interstitial Pd 0 sites, both pre-reduced Pd 6 Ce 8 and Pd 6 Th 8 exhibit electrocatalytic activity toward CO 2 -reduction [37,[41][42][43] in the semi-neutral medium of 0.1 mol dm À 3 phosphate buffer of pH 6.1. Simply judging from the appearance of the well-defined and sound CO 2 -reduction peak at the less negative (than typically reported) [37,41,42] potential of À 0.3 V Table 1: Association constants (K a ) of cationic mixed-oxo clusters with CXn and thermodynamic parameters for complex formation (kcal mol À 1 ). [a] Host Guest K a [× 10 (Figure 4C) for the pre-reduced Pd 6 Ce 8 , it can be considered as a potent electrocatalyst for the reduction of CO 2 .…”
Section: Resultsmentioning
confidence: 99%
“…It is likely that the self‐poisoning (with CO) of Pd surfaces becomes less pronounced in such nanoengineered ceria‐encapulated Pd clusters. Based on chromatographic analysis performed as described earlier, [37] carbon monoxide and hydrogen (i.e. syngas components) are the main reaction products.…”
Section: Resultsmentioning
confidence: 99%