Shape Effects of Ceria Nanoparticles on the Water‒Gas Shift Performance of CuOx/CeO2 Catalysts

Abstract: The copper–ceria (CuOx/CeO2) system has been extensively investigated in several catalytic processes, given its distinctive properties and considerable low cost compared to noble metal-based catalysts. The fine-tuning of key parameters, e.g., the particle size and shape of individual counterparts, can significantly affect the physicochemical properties and subsequently the catalytic performance of the binary oxide. To this end, the present work focuses on the morphology effects of ceria nanoparticles, i.e., na… Show more

“…These obtained values are smaller than the pure CeO x 's. 58,59 The lower E g is highly connected with the crystalline phase displacements and oxygen vacancy positions. 60,61 A small E g enables the movement of abundant O Lat at the catalyst's surface, increasing the catalytic activity.…”

Low-temperature deep oxidation of N,N-dimethylformamide (DMF) over CeCu binary oxides

“…These obtained values are smaller than the pure CeO x 's. 58,59 The lower E g is highly connected with the crystalline phase displacements and oxygen vacancy positions. 60,61 A small E g enables the movement of abundant O Lat at the catalyst's surface, increasing the catalytic activity.…”

Low-temperature deep oxidation of N,N-dimethylformamide (DMF) over CeCu binary oxides

“…50,51 Due to its wide range of applications, researchers are focusing more on synthesizing CeO 2based materials of controlled size, shape, and morphology as the size, shape, and morphology significantly affect the physicochemical properties and hence their application potential. [52][53][54][55] Accordingly, different chemical approaches such as precipitation, [55][56][57] sol-gel, 48 hydrothermal, 58,59 thermal decompositions, 49 and solution combustion 60 have been extensively used for the synthesis of CeO 2 NPs. However, researchers put more emphasis on the precipitation method because the precipitation approach is the simplest, most environmentally friendly, most cost-effective, and easy to scale up.…”

Facile synthesis of CeO₂ nanoparticles for enhanced removal of malachite green dye from an aqueous environment

“…Cu/CeO 2 catalysts have recently received increasing attention, showing good conversions in low-temperature (LT-)­WGS. ,− According to literature reports, the catalytic activity increases with the Cu loading; , therefore, most studies have focused on highly loaded catalysts. ,, However, normalized to the Cu content, the low-loaded catalysts show higher conversions . Nevertheless, there are no detailed mechanistic studies on the loading dependence of the mechanism itself.…”

“…To this end, theoretical studies have revealed a dependence on the strength of the interaction of Cu with the low-index surface facets, 34,46 which is also reflected in the catalytic activity. 29,[32][33][34]47 For 5 wt % Cu/CeO 2 catalysts, octahedra were found to exhibit the highest WGS activity at ≥200 °C, followed by rods and cubes, by providing the best Cu dispersion, the largest amount of moderately active copper oxide, and the strongest Cu−support interaction. 29 To summarize previous literature findings, the state of copper when supported by ceria strongly depends on the copper loading, and so far a major focus has been placed on highly loaded catalysts.…”

Approaching C1 Reaction Mechanisms Using Combined Operando and Transient Analysis: A Case Study on Cu/CeO₂ Catalysts during the LT-Water–Gas Shift Reaction