2023
DOI: 10.1021/acsaenm.3c00281
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Unravelling the Alloy Effect of Porous Binary Pd-Based Nanostructures on Electrocatalytic Oxidation of Carbon Monoxide in Different Electrolytes

Abstract: Binary Pd-based nanostructures are highly efficient electrocatalysts for various applications. However, the alloy effect and electrolyte pH on CO oxidation (COoxid) remain ambiguous. This work presents a facile fabrication of porous PdM (M = Cu, Au, and Mn) spongy-like nanostructures via an aqueous-phase chemical reduction method for the electrocatalytic COoxid. The fabrication process comprises the direct ice-chemical reduction of binary metal precursors by sodium borohydride (NaBH4), without the need for sup… Show more

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Cited by 6 publications
(4 citation statements)
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“…Modulation the d-band center of Pd with Co, Cu, Ni, Fe, Au, and Mn without support enhanced the performance significantly than Pd/C catalysts in different electrolytes, but it was better in KOH. [93,95] PdFe with a higher strain effect was superior to all other alloys. [95] Porous Pt nanodendrites and Pd nanocubes are the most promising in different electrolytes,due to higher ECSA and maximized atom utilization.…”
Section: Discussionmentioning
confidence: 87%
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“…Modulation the d-band center of Pd with Co, Cu, Ni, Fe, Au, and Mn without support enhanced the performance significantly than Pd/C catalysts in different electrolytes, but it was better in KOH. [93,95] PdFe with a higher strain effect was superior to all other alloys. [95] Porous Pt nanodendrites and Pd nanocubes are the most promising in different electrolytes,due to higher ECSA and maximized atom utilization.…”
Section: Discussionmentioning
confidence: 87%
“…The I CO of porous PdCu nanosponge was more than 1.74, 1.14, and 2.63 times higher than those of PdMn, AuPd, and Pd/ C nanosponges in H 2 SO 4 , KOH, and NaHCO 3 , respectively, besides of great stability for 1000 cycles. [93] Also, the EIS data demonstrated the lower charge transfer resistance and better electrolyte interaction of PdCu, PdMn, AuPd, and Pd/C than Pd/ C, as shown in the lower R s , R ct , and higher CPE. Notably, PdCu nanosponge [83] outperformed previously reported PtPd nanodendrites in KOH, [85] PtPd nanodendrites in H 2 SO 4 , [90] and AuPd/ C in H 2 SO 4.…”
Section: Alloying Pt With Other Metalsmentioning
confidence: 86%
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“…[6][7][8] Also, Pd-based catalysts are endowed with impressive properties (i. e., great electrochemical active surface area, low density, quick charge mobility, and ease adsorption/diffusion of reactants) that benefit CO Oxid electrocatalysis. [11,12] To defeat the high-cost and earth-rarity of Pd metal, it is usually mixed with other low-cost and earth-abundant metals/metal oxides (i. e., Co, TiO 2 , SiO 2 , Ce 2 O 3 , Fe 2 O 3 , Ni, Fe, Cu). [13][14][15][16][17] This not only reduces the usage of Pd but also modulates the d-band center of Pd (i. e., upshifting or downshifting), resulting in accelerating the CO Oxid kinetics at low potential and facilitating desorption of intermediates/products.…”
Section: Introductionmentioning
confidence: 99%