X-ray absorption spectroscopy of Ba- and Cs-promoted Ru/mesoporous carbon catalysts for long-term ammonia synthesis under intermittent operation conditions

The structural characteristics of Ba- and Cs-promoted Ru catalysts supported on a mesoporous carbon material were examined by X-ray absorption spectroscopy and several characterization techniques, and correlated to their activities in long-term ammonia synthesis under intermittent operation conditio...

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Bibliographic Details
Published inSustainable energy & fuels Vol. 4; no. 2; pp. 832 - 842
Main Authors Nishi, Masayasu, Chen, Shih-Yuan, Takagi, Hideyuki
Format Journal Article
LanguageEnglish
Published London Royal Society of Chemistry 2020
Subjects
Absorption spectroscopy
Ammonia
Barium
Carbon
Catalysts
Cesium
Chemical synthesis
Hydrogen production
Hydroxides
Interfaces
Nanoparticles
Spectrum analysis
X ray absorption
X-ray absorption spectroscopy
X-ray spectroscopy
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Summary:The structural characteristics of Ba- and Cs-promoted Ru catalysts supported on a mesoporous carbon material were examined by X-ray absorption spectroscopy and several characterization techniques, and correlated to their activities in long-term ammonia synthesis under intermittent operation conditions. 0.5Ba-10 wt% Ru/MPC contains barium species adhered to the surfaces of the Ru nanoparticles, creating more catalytically active sites for the dissociation of nitrogen molecules. By contrast, 2.5Cs-10 wt% Ru/MPC contains cesium hydroxides homogeneously covered on the MPC and Ru interfaces, enhancing the electronic properties of the Ru nanoparticles and consequently facilitating ammonia synthesis. As a result, the catalytic study demonstrated that ammonia synthesis rates over these promoted Ru catalysts could be finely and stably tuned within 22.5-100 mmol g cat −1 h −1 by quickly varying the reaction temperature in the range of 340-400 °C and gas hourly space velocity in the range of 9000-18 000 h −1 , and the intermittent operation conditions could achieve the desired hydrogen production rates derived from a sustainable process. The active sites of Ba- and Cs-promoted Ru/mesoporous carbons were examined by advanced techniques, especially X-ray absorption spectroscopy, and correlated to their activities in long-term ammonia synthesis under intermittent operation conditions.
Bibliography:Electronic supplementary information (ESI) available. See DOI
10.1039/c9se00781d
ISSN:2398-4902
2398-4902
DOI:10.1039/c9se00781d