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2022年文章

[1] Tiantian Jiao*, Chuhan Ren, Shaojie Lin, Lianzheng Zhang, Xianzhen Xu, Yaqing Zhang, Wenrui Zhang, Peng Liang*. The extraction mechanism research for the separation of indole through the formation of deep eutectic solvents with quaternary ammonium saltsJournal of Molecular Liquids, 347 (2022) 118325.

[2] Yanshi Zhang, Xiangping Li*, Yaqing Zhang, Tiantian Jiao, Huawei Zhang, Wenrui Zhang, Peng Liang*. Mn(CeZr)Ox chelation-induced synthesis and its hydrothermal aging characteristics for catalytic abatement of toluene. Chemosphere, 288 (2022) 132662.

[3] Yaqing Zhang, Jialong Zhu, Peng Liang*, Tiantian Jiao, Xiangping Li, Flow characteristics of mixed particles with a simulated cold state in moving bed reactor. Particuology, 71(2022) 11-19.

[4] Shiwei Wang, Tiantian Jiao, Yaqing Zhang, Meilu Hao, Guangming Bai, Xiaobin Wang, Peng Liang*. Recovery of paraffin from the filter cake used for paraffin decoloration in the Fischer-Tropsch synthetic process, Fuel, 324 (2022) 124579.

[5] Xiangping Li, Peng Liang, Jianguang Zhang, Bin Liu. Electrochemical performance of Pleurotus ostreatus-derived carbon prepared by different methods as electrode in supercapacitor. Materials Chemistry and Physics, 278(2022) 125623.

[6] Xiangping Li, Jianguang Zhang*, Yanshi Zhang, Bin Liu, Peng Liang*, Catalytic oxidation of volatile organic compounds over manganese-based catalysts: Recent trends and challenges, Journal of Environmental Chemical Engineering, 10(2022) 108638.

[7] Huawei Zhang, Zishun Li, Ting Liu, Mingzhu Zhang, Shengnan Deng, Yincui Li, Peng Liang, Satisfactory Anti-Interference and High Performance of the 1Co−1Ce/Mn@ZSM‑5 Catalyst for Simultaneous Removal of NO and Hg0 in Abominable Flue Gas. Environmental Science and Technology. 56 (2022), 3596-3603.

[8] Yuhan Zhang, Huawei Zhang, Ting Liu, Peng Liang. Synergistic removal of HCl and Hg0 in pyrolytic waste plastic gas on Ca and Co loaded carbon aerogel at room temperature. Fuel Processing Technology, 238 (2022) 107497.

[9] Huawei Zhang, Yifan Zhou, Ting Liu, Peng Liang. Mercury release behaviors of Guizhou bituminous coal during co-pyrolysis: Influence of chlorella. Journal of Environmental Science, 119 (2022): 23-32.

[10] Yan Zhao, Cong Lu, Fangru Yu, Haifeng Zhou. Investigation of black liquor-derived carbon for removal of Cr(VI): Comparison with lignin-derived carbon. Colloids and Surfaces A: Physicochemical and Engineering Aspects. 642 (2022), 128730.

[11] Hao Zhang, Haifeng Zhou. Industrial lignins: the potential for efficient removal of Cr(VI) from wastewater. Environmental Science and Pollution Research. 29 (7) (2022), 10467-10481.

[12] Hao Zhang, Yuxin Tian, Yanrui Niu, Xiaolong Dong, Hongming Lou, Haifeng Zhou. Lignosulfonate/N-butylaniline hollow microspheres for the removal of Cr(VI): Fabrication, adsorption isotherm and kinetics. Journal of Water Process Engineering. 46 (2022), 102588.

[13] Weidong Wu, Yiming Sun, Haifeng Zhou. In-situ construction of β-Bi2O3/Ag2O photocatalyst from deactivated AgBiO3 for tetracycline degradation under visible light. Chemical Engineering Journal. 432 (2022), 134316.

[14] Yuxin Tian, Haifeng Zhou. A novel nitrogen-doped porous carbon derived from black liquor for efficient removal of Cr(VI) and tetracycline: Comparison with lignin porous carbon. Journal of Cleaner Production. 333 (2022), 130106.

[15] Yuxin Tian, Yanbo Yin, Hua Liu, Haifeng Zhou. One-step hydrothermal carbonization of amine modified black liquor and lignin for efficient Cr(VI) adsorption. Journal of Water Process Engineering. 46 (2022), 102583.

[16] Cong Lu, Haifeng Zhou. The Ag-based SPR effect drives effective degradation of organic pollutants by BiOCOOH/AgBr composites. Advanced Powder Technology. 33 (3) (2022), 103428.

[17] Cong Lu, Yongli Yin, Haifeng Zhou. Construction of oxygen vacancy enriched Bi2MoO6/BiFeWO6 heterojunction for efficient degradation of organic pollutants. Journal of Solid State Chemistry. 312 (2022), 123210.

[18] Yaqi Chen, Hao Dong, Tengfei Zhang, Qing Liu, Solvothermal synthesis of FDU-12 derived Ni-phyllosilicate using double solvent of H2O and n-pentane, Catalysis Letters. 152 (2022), 1488-1494.

[19] Yaqi Chen, Hai Li, Jia Liu, Ning Liu, Jing Yang, Yang Zhang, Qingbin Guo, Fang Wang, Qing Liu, Efficient utilization of silanol group in rice husk to promote the synthesis of Ni-phyllosilicate for CO2 methanation, International Journal of Hydrogen Energy. 47 (2022), 21173-21181.

[20] Yaqi Chen, Xiaoren Wu, Qing Liu, Maoshuai He, Hongcun Bai, Ni-Foam Structured Ni-Phyllosilicate Ensemble as an Efficient Monolithic Catalyst for CO2 Methanation, Catalysis Letters. 152 (2022), 2738-2744.

[21] Jia Liu, Qing Liu, Xing Fan, Synergistic effect of double solvent and accelerator on efficient synthesis of nickel phyllosilicate for CO2 methanation, Journal of the Energy Institute. 105 (2022), 184-191.

[22] Jia Liu, Xiaoren Wu, Yaqi Chen, Yang Zhang, Tengfei Zhang, Hongmei Ai, Qing Liu, Why Ni/CeO2 is more active than Ni/SiO2 for CO2 methanation? Identifying effect of Ni particle size and oxygen vacancy, International Journal of Hydrogen Energy. 47 (2022), 6089-6096.

[23] Jia Liu, Yang Zhang, Yaqi Chen, Qing Liu, Controllable synthesis of yolk–shell nickel phyllosilicate for CO2 methanation: Identifying effect of pore structure of silica sacrificial template, Materials Today Nano. 18 (2022), 100208.

[24] Qing Liu, Hengjun Gai, Quanhong Zhu, Weikang Hao, Effect of internal friction among unfluidized particles on measuring minimum fluidization velocity and segregation index, Chemical Engineering Communications. (2022), 1-13.


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