Elena Tchernychova scite author profile

This study reports a thorough investigation of nanosized CuO/CeO 2 materials as an efficient catalyst for decomposition of N 2 O, which is a strong greenhouse gas largely produced by chemical industry. Effect of terminating CeO 2 crystalline planes ({100}, {110} and {111}) on the behavior of CuO dispersed over CeO 2 nanocubes, nanorods and polyhedral crystallites was examined in detail by using a variety of catalyst characterization techniques. The 4 wt. % Cu was found as the most advantageous metal loading, whereas higher Cu content resulted in lower dispersion and formation of significantly less active, segregated bulk CuO phase. It was discovered that CuO/CeO 2 solids should enable both excessive oxygen mobility on the catalyst surface as well as formation of highly reducible Cu defect sites, in order to ensure high intrinsic activity. Detailed studies further revealed that CeO 2 morphology needs to be tailored to expose {100} and {110} high-energy surface planes, as present in CeO 2 nanorods. Oxygen mobility and regeneration of active Cu phase on these surface planes is easier, which in turn facilitates higher catalytic activity through the recombination of surface oxygen atoms and desorption as molecular oxygen that replenishes active sites for subsequent catalytic cycles. As a consequence, CuO supported on CeO 2 nanorods demonstrated lower activation energy (87 kJ/mol) in N 2 O decomposition reaction compared to catalysts based on CeO 2 nanocubes (102 kJ/mol) or polyhedral CeO 2 (92 kJ/mol).

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Quantitative multiscale correlative microstructure analysis of additive manufacturing of stainless steel 316L processed by selective laser melting

Godec

Zaefferer

Podgornik

et al. 2020

Materials Characterization

162

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et al. 2008

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