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Literature DB >> 20126725

In situ spectroscopic detection of SMSI effect in a Ni/CeO2 system: hydrogen-induced burial and dig out of metallic nickel.

Alfonso Caballero¹, Juan P Holgado, Victor M Gonzalez-delaCruz, Susan E Habas, Tirma Herranz, Miquel Salmeron.

Abstract

In situ APPES technique demonstrates that the strong metal support interaction effect (SMSI) in the Ni-ceria system is associated with the decoration and burial of metallic particles by the partially reduced support, a phenomenon reversible by evacuation at high temperature of the previously absorbed hydrogen.

Entities: Chemical

Year: 2009 PMID： 20126725 DOI： 10.1039/b920803h

Source DB: PubMed Journal: Chem Commun (Camb) ISSN： 1359-7345 Impact factor: 6.222

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Cited

3 in total

1. Support nanostructure boosts oxygen transfer to catalytically active platinum nanoparticles.

Authors: Georgi N Vayssilov; Yaroslava Lykhach; Annapaola Migani; Thorsten Staudt; Galina P Petrova; Nataliya Tsud; Tomáš Skála; Albert Bruix; Francesc Illas; Kevin C Prince; Vladimír Matolín; Konstantin M Neyman; Jörg Libuda
Journal: Nat Mater Date: 2011-03-20 Impact factor: 43.841

2. LED-driven controlled deposition of Ni onto TiO₂ for visible-light expanded conversion of carbon dioxide into C₁-C₂ alkanes.

Authors: Arturo Sanz-Marco; José L Hueso; Víctor Sebastian; David Nielsen; Susanne Mossin; Juan P Holgado; Carlos J Bueno-Alejo; Francisco Balas; Jesus Santamaria
Journal: Nanoscale Adv Date: 2021-04-20

3. New Insights on the Nickel State Deposited by Hydrazine Wet-Chemical Synthesis Route in the Ni/BCY15 Proton-Conducting SOFC Anode.

Authors: Dimitrinka Nikolova; Margarita Gabrovska; Gergana Raikova; Emiliya Mladenova; Daria Vladikova; Krassimir L Kostov; Yordanka Karakirova
Journal: Nanomaterials (Basel) Date: 2021-11-27 Impact factor: 5.076

3 in total

In situ spectroscopic detection of SMSI effect in a Ni/CeO2 system: hydrogen-induced burial and dig out of metallic nickel.

1. Support nanostructure boosts oxygen transfer to catalytically active platinum nanoparticles.

2. LED-driven controlled deposition of Ni onto TiO2 for visible-light expanded conversion of carbon dioxide into C1-C2 alkanes.

3. New Insights on the Nickel State Deposited by Hydrazine Wet-Chemical Synthesis Route in the Ni/BCY15 Proton-Conducting SOFC Anode.

2. LED-driven controlled deposition of Ni onto TiO₂ for visible-light expanded conversion of carbon dioxide into C₁-C₂ alkanes.