Characterization of Surface Hydride Hafnium Complexes on Alumina by a Combination of Experiments and DFT Calculations

Marco Delgado; Catherine C. Santini; Francoise Delbecq; Anne Baudouin; Aimery De Mallmann; Carmello Prestipino; S. Norsic; Philippe Sautet; Jean-Marie Basset

doi:10.1021/jp200111x

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Characterization of Surface Hydride Hafnium Complexes on Alumina by a Combination of Experiments and DFT Calculations

Journal article

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Characterization of Surface Hydride Hafnium Complexes on Alumina by a Combination of Experiments and DFT Calculations

Marco Delgado, Catherine C. Santini, Francoise Delbecq, Anne Baudouin, Aimery De Mallmann, Carmello Prestipino, S. Norsic, Philippe Sautet and Jean-Marie Basset

Journal of physical chemistry. C, Vol.115(14), pp.6757-6763

14/04/2011

DOI: https://doi.org/10.1021/jp200111x

Abstract

Chemistry

Chemistry, Physical

Materials Science

Materials Science, Multidisciplinary

Nanoscience & Nanotechnology

Physical Sciences

Science & Technology

Science & Technology - Other Topics

Technology

The hydrogenolysis at 150 degrees C of the surface complexes obtained by grafting Hf(CH(2)tBu)(4) with gamma-alumina yields several hydride complexes. They have been characterized by combining various experimental techniques (IR, DQ H-1 NMR, and EXAFS) and DFT calculations. Two main conclusions are drawn from experiments: first, all Hf-CH(2)tBu bonds are hydrogenolized in Hf H ones, while most of the Al-CH(2)tBu bonds remain intact. Second, there is mainly formation of monohydride surface complex either as a trialuminoxy monohydride (AlO)(3)HfH or a cationic bisaluminoxy [(AlIVO)(AlSO))HfH](+)[lAl-CH(2)tBu](-). The DFT calculations of the possible species show that all the considered transformations are thermodynamically favorable. Moreover, the calculated bond lengths are in good agreement with the EXAFS values confirming the nature of the hydride complexes obtained at this temperature.

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Title: Characterization of Surface Hydride Hafnium Complexes on Alumina by a Combination of Experiments and DFT Calculations
Creators - without role: Marco Delgado - Université de Lyon
Catherine C. Santini - École d'Ingénieurs en Chimie et Sciences du Numérique
Francoise Delbecq - Université de Lyon
Anne Baudouin - École d'Ingénieurs en Chimie et Sciences du Numérique
Aimery De Mallmann - École d'Ingénieurs en Chimie et Sciences du Numérique
Carmello Prestipino - ESRF, F-38000 Grenoble, France
S. Norsic - École d'Ingénieurs en Chimie et Sciences du Numérique
Philippe Sautet - Université de Lyon
Jean-Marie Basset - École d'Ingénieurs en Chimie et Sciences du Numérique
Publication Details: Journal of physical chemistry. C, Vol.115(14), pp.6757-6763
Publisher: Amer Chemical Soc
Number of pages: 7
Identifiers: 9943447008331
Academic Unit: King Abdullah University of Science & Technology
Language: English
Resource Type: Journal article