(1)CuimeiZhi;Wen Yang*; Unraveling the Role of the d-Electron Reservoir of ZrNi3/Al2O3for C–O Breaking during CO Methanation: Zr-Induced Active Sites Make the Difference,The Journal of Physical Chemistry C,2023, 127 (5),2326-2339. (2)CuimeiZhi; Ruihong Yang;Changyu Zhou*; Guiru Wang; Jiaying Ding; Wen Yang;Unraveling the role of Ni13catalyst supported on ZrO2for CH4dehydrogenation: The d-band electron reservoir,Journal of Fuel Chemistry and Technology, 2022, 50(5), 601-610. (3)CuimeiZhi*; Wen Yang;Improvement of Mo-doping on Sulfur-Poisoning of Ni Catalyst: Activity and Selectivity to CO Methanation,Computational and Theoretical Chemistry, 2021, 1197, 113140-1-11. (4)Cuimei Zhi; Riguang Zhang; Baojun Wang*;CO methanation on La/Ni(111) surface: effect of La electron delocalization on activity and selectivity, MATERIALS CHINA, 2020, 39(9): 670-680. (5)Cuimei Zhi; Riguang Zhang; Baojun Wang*; Comparative studies about CO methanation over Ni(211) and Zr-modified Ni(211) surfaces: qualitative insight into the effect of surface structure and composition,Molecular Catalysis, 2017, 438: 1-14. (6)CuimeiZhi; Qiang Wang; Baojun Wang*; Debao Li; Riguang Zhang; Insight into the mechanism of methane synthesis from syngas on a Ni(111) surface: a theoretical study,RSC Advances, 2015, 5(82): 66742-66756. (7)一种用于二氧化碳甲烷化的钴基催化剂基及应用.发明专利 专利号: ZL 2018 1 1354650.0. (第一发明人) |