Your search keyword '"Cuartero, Vera"' showing total 2 results

1. Localization and Speciation of Iron Impurities within a Fluid Catalytic Cracking Catalyst.

Author

Ihli, Johannes, Ferreira Sanchez, Dario, Jacob, Rosh R., Cuartero, Vera, Mathon, Olivier, Krumeich, Frank, Borca, Camelia, Huthwelker, Thomas, Cheng, Wu‐Cheng, Shu, YuYing, Pascarelli, Sakura, Grolimund, Daniel, Menzel, Andreas, and van Bokhoven, Jeroen A.

Subjects

CATALYTIC cracking, FLUID mechanics, CHEMICAL speciation, METAL inclusions, IRON catalysts, POROUS materials

Abstract

Fluid catalytic cracking is a chemical conversion process of industrial scale. This process, utilizing porous catalysts composed of clay and zeolite, converts heavy crude-oil fractions into transportation fuel and petrochemical feedstocks. Among other factors iron-rich reactor and feedstream impurities cause these catalyst particles to permanently deactivate. Herein, we report tomographic X-ray absorption spectroscopy measurements that reveal the presence of dissimilar iron impurities of specific localization within a single deactivated particle. Whereas the iron natural to clay in the composite seems to be unaffected by operation, exterior-facing and feedstream-introduced iron was found in two forms. Those being minute quantities of ferrous oxide, located near regions of increased porosity, and impurities rich in Fe3+, preferentially located in the outer dense part of the particle and suggested to contribute to the formation of an isolating amorphous silica alumina envelope. [ABSTRACT FROM AUTHOR]

Published

2017

2. On the correlation between the X-ray absorption chemical shift and the formal valence state in mixed-valence manganites

Author

García, Joaquín, Subías, G., Cuartero, Vera, Herrero Martín, Javier, García, Joaquín, Subías, G., Cuartero, Vera, and Herrero Martín, Javier

Abstract

Here the correlation between the chemical shift in X-ray absorption spectroscopy, the geometrical structure and the formal valence state of the Mn atom in mixed-valence manganites are discussed. It is shown that this empirical correlation can be reliably used to determine the formal valence of Mn, using either X-ray absorption spectroscopy or resonant X-ray scattering techniques. The difficulties in obtaining a reliable comparison between experimental XANES spectra and theoretical simulations on an absolute energy scale are revealed. It is concluded that the contributions from the electronic occupation and the local structure to the XANES spectra cannot be separated either experimentally or theoretically. In this way the geometrical and electronic structure of the Mn atom in mixed-valence manganites cannot be described as a bimodal distribution of the formal integer Mn3+ and Mn4+ valence states corresponding to the undoped references.

Published

2010