基本信息
刘晓菲,博士,讲师,硕士生导师
个人简介
教育经历
2019.09-2023.12 南昌大学,化学学院,博士
2016.09-2019.06 新疆大学,化工学院,硕士
2012.06-2016.12 天津科技大学,化学化工学院,学士
工作经历
2024.05-至今,新疆农业大学,化学化工学院化工教研室,讲师
研究方向
工业催化,能源催化,环境催化
主讲课程
本科生《化工传递过程基础》《化工制图》《化工设计概论》《化工导论》
主持和参与科研项目
新疆维吾尔自治区高校科研计划(XJEDU2025P040),2024/12-2027/03,在研,主持
主要科研成果
1. Xiaofei Liu, Jiamei Ma, Lei Mao, Junwei Xu, Xianglan Xu, Xiuzhong Fang, Xiang Wang*. Cu/REO (RE = La, Pr, Sm, Y, Ce) catalysts for methanol steam reforming: Understanding the interaction between Cu and individual REO supports. Fuel 357 (2024) 130080. (IF=7.4, JCR Q1,中科院一区TOP)
2. XiaofeiLiu, Junwei Xu, Shuobin Li, Zijian Chen, Xianglan Xu, Xiuzhong Fang, Xiang Wang*. Using XRD extrapolation method to design Ce-Cu-O solid solution catalysts for methanol steam reforming to produce H2: The effect of CuO lattice capacity on the reaction performance, CatalysisToday 402 (2022) 228–240 (IF=5.3, JCR Q1,中科院二区)3.Xiaofei Liu, Jiamei Ma, Chengxin Lu, Junwei Xu, Xianglan Xu, Xiuzhong Fang, Xiang Wang. Probing the Crystalline Phase effect of Rare Earth Metal Oxide (REO) on Cu/REO (RE=Gd, Eu, Sm) catalysts for methanol steam reforming to produce H2, Journal of Rare Earth, 41 (2023) 820-829, IF=4.9,JCR Q1,中科院一区)
4.Xiaofei Liu , Xintai Su , Chao Yang , Kongjun Ma. Hydrothermal synthesis of WO3·0.33H2O nanorod bundles as highly sensitive cyclohexene sensor,Sensors 2019, 19(5)(IF=3.9,JCR Q2,中科院三区)
5.Liu, X., Bekchanov, D.,Baikenov, M.I., & Su, X. (2024) Construction of Ag/AgCl@MIL-53(Fe): Achieving Efficient Photocatalytic Water Oxidation via the Plasma-Phase Silver and Heterojunction Synergistic Effect.Eurasian Journal ofChemistry, 29, 3(115), 160-170.
6.Kongjun Ma ,* Xiaofei Liu , Zeliang Luo , Zhenxing Zhou , Wenlong Mo, Xintai Su. FeNi-MIL53 bimetallic MOFs as a visible light photocatalyst for water oxidation, Materials Letters 332 (2023) 133477.(IF=3.0,JCR Q2,中科院三区)
7.Jiamei Ma, Lei Mao, Haoxuan Du, Jingkang Zhong, Lifang Jiang, Xiaofei Liu, Junwei Xu, Xianglan Xu, Xiuzhong Fang, Xiang Wang*. Tracking the critical roles of Cu+ and Cu0 sites and the optimal Cu+/Cu0 ratio for CH3OH steam reforming (MTSR) to manufacture H2. Chemical Engineering Journal 496 (2024) 154195 (IF=13.9,JCR Q1,中科院一区)
通讯地址:新疆乌鲁木齐市农大东路新疆农业大学化学化工学院
邮编:830052