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Plasma Sci. Technol. ›› 2019, Vol. 21 ›› Issue (4): 044004.doi: 10.1088/2058-6272/aaf9d2

• The 2018 Asia-Pacific Conference on Plasma and Terahertz Science (APCOPTS) • Previous Articles     Next Articles

Plasma-assisted Ru/Zr-MOF catalyst for hydrogenation of CO2 to methane

Weiwei XU (徐卫卫), Xiuling ZHANG (张秀玲), Mengyue DONG (董梦悦), Jing ZHAO (赵静) and Lanbo DI (底兰波)   


  1. College of Physical Science and Technology, Dalian University, Dalian 116622, People’ s Republic of China
  • Received:2018-10-10 Published:2018-12-19
  • Supported by:

    This work is supported by National Natural Science Foundation of China (Nos. 21673026, 21773020, 11505019), the Liaoning Innovative Talents in University (No. LR2017025), and the Liaoning Natural Science Foundation (No. 20180550085).


As an important type of metal–organic framework (MOF), Zr-MOF shows excellent CO2 adsorption performance. In this work, a Zr-MOF was synthesized by a solvothermal method and adopted to support Ru through simple incipient-wetness impregnation. Then the Ru/Zr-MOF was applied for CO2 hydrogenation  (VH2 : VCO2= 4:1)  with the assistance of dielectric barrier discharge (DBD) plasma. The hydrogenation of CO2 results showed that methane was produced selectively under the synergistic effect between plasma and the Ru/Zr-MOF catalyst, and the selectivity and yield of methane reached 94.6% and 39.1%, respectively. The XRD and SEM analyses indicate that the basic crystalline phase structure and morphology of the Zr-MOF and Ru/Zr-MOF remained the same after DBD plasma treatment, suggesting that the catalysts are stable in plasma. The guest molecules in the pores of the Zr-MOF are removed and the Ru3+ ions are reduced to metallic Ru0 in the reduction atmosphere according to the BET and XPS results, which are responsible for the high performance of plasma with the Ru/Zr-MOF catalyst. In situ optical emission spectra of pure plasma, plasma with Zr-MOF, and plasma with Ru/Zr-MOF were measured, and the active species of C, H and CH for CO2 hydrogenation were detected. The plasma-assisted Ru/Zr-MOF exhibited high catalytic activity and stability in CO2 hydrogenation to methane, and it has great guiding significance for CO2 hydrogenation by using plasma and MOF materials.

Key words: dielectric barrier discharge, cold plasma, Zr-MOF, carbon dioxide hydrogenation, methane