Modelling Transition Metal Nanoparticles: the Role of Size Reduction in Electronic Structure and Catalysis

“…This effect could be attributed to the redistribution rather than to the narrowing of the 5d states [7][8][9][10][11]. The Au/FeO x /SiO 2 /Si(100) model system has gold in its zero valence state even during size reduction induced by Ar+ ion bombardment.…”

“…While the morphology, electron structure and catalytic activity of the Au/FeO x /SiO 2 /Si(100) model (AuPLD), and the coprecipitated Au/Fe 2 O 3 (AuCP) samples in response to the oxygen and the subsequent hydrogen treatments are similar [15] it is reversed for the Au-Fe/HY (AuHY) sample. The difference cannot be ascribed to the change in particle size because the average diameter of gold particles is always in the range 4-6 nm, and is only slightly modified by oxygen/hydrogen treatments.…”

Gold catalyst research at the institute of Isotopes, Budapest

“…This effect could be attributed to the redistribution rather than to the narrowing of the 5d states [7][8][9][10][11]. The Au/FeO x /SiO 2 /Si(100) model system has gold in its zero valence state even during size reduction induced by Ar+ ion bombardment.…”

“…While the morphology, electron structure and catalytic activity of the Au/FeO x /SiO 2 /Si(100) model (AuPLD), and the coprecipitated Au/Fe 2 O 3 (AuCP) samples in response to the oxygen and the subsequent hydrogen treatments are similar [15] it is reversed for the Au-Fe/HY (AuHY) sample. The difference cannot be ascribed to the change in particle size because the average diameter of gold particles is always in the range 4-6 nm, and is only slightly modified by oxygen/hydrogen treatments.…”

Gold catalyst research at the institute of Isotopes, Budapest

Platinum nanoparticles encapsulated in mesoporous silica: Preparation, characterisation and catalytic activity in toluene hydrogenation