High Electron Density on Ru in Intermetallic YRu2: The Application to Catalyst for Ammonia Synthesis

High Electron Density on Ru in Intermetallic YRu2: The Application to Catalyst for Ammonia Synthesis

Ruthenium is the most effective catalyst reported to date for ammonia synthesis under mild conditions, especially when an electron promoter is used. However, electron donation from the promoter has not been sufficient because the promoter contacts with Ru only through its surface. Here, we report a...

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Veröffentlicht in:Journal of physical chemistry. C 2018-05, Vol.122 (19), p.10468-10475
Hauptverfasser: Ogawa, Takaya, Kobayashi, Yasukazu, Mizoguchi, Hiroshi, Kitano, Masaaki, Abe, Hitoshi, Tada, Tomofumi, Toda, Yoshitake, Niwa, Yasuhiro, Hosono, Hideo
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container_end_page 10475
container_issue 19
container_start_page 10468
container_title Journal of physical chemistry. C
container_volume 122
creator Ogawa, Takaya
Kobayashi, Yasukazu
Mizoguchi, Hiroshi
Kitano, Masaaki
Abe, Hitoshi
Tada, Tomofumi
Toda, Yoshitake
Niwa, Yasuhiro
Hosono, Hideo
description Ruthenium is the most effective catalyst reported to date for ammonia synthesis under mild conditions, especially when an electron promoter is used. However, electron donation from the promoter has not been sufficient because the promoter contacts with Ru only through its surface. Here, we report a Laves phase intermetallic bulk catalyst, YRu2, which has higher electron density on Ru. This is derived from large electron transfer from Y to Ru, which is first confirmed by X-ray absorption fine structure measurements and theoretical calculations. In addition, YRu2 has high hydrogen solubilities leading to suppression of hydrogen poisoning, a common drawback of Ru-based catalysts. Consequently, YRu2 exhibits higher catalytic activity for ammonia synthesis over 300 times that with pure ruthenium. The present results suggest a simple concept for ammonia synthesis: Laves phase intermetallic compounds of Ru and more electropositive metals are more efficient catalysts than pure Ru because of the large electron promotion and suppression of hydrogen poisoning.
doi_str_mv 10.1021/acs.jpcc.8b02128
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title High Electron Density on Ru in Intermetallic YRu2: The Application to Catalyst for Ammonia Synthesis
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