Advanced heterolytic H(2 )adsorption of K-added Ru/MgO catalysts for accelerating hydrogen storage into aromatic benzyltoluenes
- Authors
- Kim, Tae Wan; Jeong, Hwiram; Jo, Yeongin; Kim, Dongun; Park, Ji Hoon; Kim, Seok Ki; Suh, Young-Woong
- Issue Date
- Aug-2022
- Publisher
- ELSEVIER
- Keywords
- Chemical hydrogen storage; Supported Ru catalysts; Ru-MgO interface; Heterolytic H 2 adsorption; Charge transfer; Potassium promotion
- Citation
- JOURNAL OF ENERGY CHEMISTRY, v.71, pp.333 - 343
- Indexed
- SCIE
SCOPUS
- Journal Title
- JOURNAL OF ENERGY CHEMISTRY
- Volume
- 71
- Start Page
- 333
- End Page
- 343
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/170026
- DOI
- 10.1016/j.jechem.2022.03.0472095-4956
- ISSN
- 2095-4956
- Abstract
- Herein, we report a highly active K-added Ru/MgO catalyst for hydrogen storage into aromatic benzyltoluenes at low temperatures to advance liquid organic hydrogen carrier technology. The hydrogenation activity of Ru/K/MgO catalysts exhibits a volcano-shaped dependence on the K content at the maximum with 0.02 wt%. This is in good agreement with the strength and capacity of H2 adsorption derived from basicity, despite a gradual decrease in the textural property and the corresponding increase in the Ru particle size with increasing the K content. Density functional theory calculations show that heterolytic hydrogen adsorption properties (strength and polarization) are facilitated up to a specific density of K on the Ru-MgO interface and excessive K suppresses heterolytic H2 adsorption by direct interaction between K and hydrogen, assuring the hydrogenation activity and H2 adsorption capability of Ru/K/ MgO catalysts. Hence, the Ru/K/MgO catalyst, when K is added in an optimal amount, is highly effective to accelerate hydrogen storage kinetics at low temperatures owing to the enhanced heterolytic H2 adsorption.
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