副教授,理学博士,硕士研究生导师
邮箱:liuwei2016@syuct.edu.cn
研究方向包括无机合成化学、无机纳米材料、挥发性有机物的催化去除。目前致力于过渡金属基催化剂的可控制备,通过构建多级异质结构,调控晶相、缺陷结构和界面特征,以优化催化剂的催化性能。主持辽宁省科技厅自然科学项目、辽宁省教育厅自然科学项目多项。近5年在Journal of Hazardous Materials,Applied Surface Science, Journal of Physical Chemistry C, Dalton Transactions, Journal of Colloid interface Science, Separation and Purification Technology, Fuel等期刊上发表SCI收录论文20余篇,获批中国发明专利3项。近三年指导辽宁省优秀硕士论文1篇,辽宁省优秀毕业生1人;指导的学生获得研究生国家奖学金3人次,一等学业奖学金5人次;获沈阳市自然学术论文奖二等奖1项;指导“挑战杯”中国大学生创新创业项目国家级铜奖1项,“互联网+”中国大学生创新竞赛项目国家级铜奖1项。
近2年发表论文:
Constructing oxygen vacancies in Cu-doped MnO2 by a quenching strategy for boosting the catalytic oxidation of toluene,通讯作者,Journal of Hazardous Materials 488 (2025) 137297,IF=12.4
Morphology-dependent performance of Mn doped Co3O4 with preferred exposure of (110) plane for toluene catalytic combustion,通讯作者,Journal of Environmental Chemical Engineering 13 (2025) 115339,IF=7.9
Regulating surface properties of Co3O4@MnO2catalysts through Co3O4-MnO2 interfacial effects for efficient toluene catalytic oxidation,通讯作者,Separation and Purification Technology 352 (2025) 128221,IF=8.6
Influence of the coupling mechanism between morphological effects and intermetallic interactions in Co-Mn composite oxides towards toluene purification,通讯作者,Separation and Purification Technology 361 (2025) 131280, IF=8.6
Constructing surface oxygen defects at CuO-Co3O4interface to boost toluene oxidation over Co3O4catalysts,第一作者,Environmental Research 248 (2024) 118411,IF=7.6
Establishing efficient toluene elimination over cobalt-manganese bimetallic oxides via constructing strong Co–Mn interaction,通讯作者,Chemosphere 352 (2024) 141346,IF=8.9
Enhancing catalytic oxidation of toluene over Ag/ Co3O4 by regulating Ag-Co interaction,第一作者,Applied Catalysis A, General 666 (2023) 119414,IF=5.6
Boosting the total oxidation of toluene by regulating the reactivity of lattice oxygen species and the concentration of surface adsorbed oxygen,第一作者,Separation and Purification Technology 325 (2023) 124597,IF=8.6
Co doping induced phase transition and its distinct effects on the catalytic performance of MnO2 toward toluene oxidation,通讯作者,Appl Organomet Chem.2024,IF=3.7
