[1] Qinzhen Fan, Hai Li, Hong Chen, Lihua Cheng, Qing Liu, Effect of concentration of nickel precursor on the synthesis of Ni phyllosilicate for CO2 methanation: The promotion of supersaturation, Fuel. 333 (2023), 126440.
[2] Hai Li, Jia Liu, Jing Yang, Linzheng Ma, Xing Fan, Peng Liang, Qing Liu, Peiwen Zhao, Bo Wang, Yu Cheng, Why the one-pot synthesized Sm-modified nickel phyllosilicate is more active than the post synthesized one for CO2 methanation? Identifying the pivotal role of generating Sm2Si2O7, Fuel Processing Technology. 247 (2023), 107802.
[3] Jia Liu, Jing Yang, Qing Liu, Xing Fan, Effect of reduction degree of Ni-phyllosilicate on the catalytic performance for CO2 methanation: Regulation of catalyst structure and hydroxyl group concentration, International Journal of Hydrogen Energy. 48 (2023), 1842-1851.
[4] Dehui Wang, Jia Liu, Hai Li, Qing Liu, Yu Cheng, Xing Fan, Peng Liang, The construction of nanotubular Ni-Mg phyllosilicate solid solution catalyst for boosting CO2 catalytic conversion: Identifying the species variations and interactions, Applied Catalysis B: Environmental. 327 (2023), 122452.
[5] Qinzhen Fan, Yaqi Chen, Qing Liu, Which intermediate is more efficient for Ni-phyllosilicate: Ni(OH)2 or H4SiO4?, International Journal of Hydrogen Energy. (2023), DOI: 10.1016/j.ijhydene.2022.06.003.
[6] Hai Li, Qing Liu, Synthesis of Ni-phyllosilicate assisted by fluoroboric acid for CO2 methanation, International Journal of Hydrogen Energy. (2023), DOI: 10.1016/j.ijhydene.2022.11.060.
