个人简历

主要从事大气污染控制、环境纳米功能材料构建、环境催化基础和应用研究。针对我国国民经济发展中出现的重大大气环境问题及需求，着重基于吸附、催化、纳米等技术开展典型大气污染物（VOCS、含氮污染物、CO、CO2等）纳米催化净化技术与方法的研究与应用，以实现气态污染物绿色、低耗、高效、高选择性的去除与资源转化, 并基于无机固废有价组分提取，实现以废治废。迄今为止，已经在众多国内外著名期刊发表科技论文125篇，其中SCI收录 100余篇, 论文他引千次以上，申请专利30余项，获授权专利8项。共承担与参与了国家级、省部级、校级等科研项目20余项。多次获得大连理工大学教学优良奖，共指导20余名本科、硕士生获得优秀毕业论文，指导研究生获得省、市优秀学术论文奖近20项。
专利
一种用于VOCs催化燃烧的原位合成Pt/MnO2@Mn3O4催化剂、制备方法及其应用
用于VOCs催化燃烧的原位合成Pt/MnO₂@Mn₃O₄催化剂、制备方法及其应用
一种用于NH₃催化氧化的纳米棒状结构的Cu-Ce催化剂、制备方法以及应用
一种具有高热稳定性的铁铈钨三元复合氧化物、合成及应用
一种用于VOCs催化氧化的纳米花尖晶石CoMn₂O₄催化剂、制备方法以及应用
用于甲苯催化氧化的纳米催化剂、制备方法及其应用
科研项目
低温脱硝催化剂脱硝性能测试, 企事业单位委托科技项目, 2016/06/15-2016/08/31, 进行
多孔核壳CuOx@CeO2纳米催化剂构建及其组分界面对氨选择催化氧化净化作用机制的研究, 国家自然科学基金项目, 2015/08/18, 进行
挥发性有机污染物检测及净化材料开发项目, 企事业单位委托科技项目, 2013/08/20-2015/07/30, 完成
含氨工业驰放气低温催化净化催化剂的开发及应用, 省、市、自治区科技项目, 2014/05/19-2016/12/31, 完成
焦炭脱硫脱硝性能测试, 企事业单位委托科技项目, 2014/06/01-2016/06/01, 完成
红浅火驱项目的尾气检测, 企事业单位委托科技项目, 2011/07/20-2013/07/20, 完成
学术荣誉
教育部\

研究领域

研究方向：大气污染控制
环境纳米催化
工业废气及挥发性有机污染物的净化
CO2资源化利用与转化
原位反应和表征技术的开发与应用
无机固废资源回收及其利用"研究领域
The main research fields include: (1) Development of method and technology for the removal of gas (2) Fabrication of nano-materials for special application in environmental catalysis (3) Conversion and Utilization of CO2 (4) Development and application of in-situ Reaction and Characterization (in situ FTIR

近期论文

近期发表的代表性论文如下：
[1] Weiwei Wang, Zhenping Qu*, Lixin Song, Qiang Fu*, Probing into the multifunctional role of copper species and reaction pathway on copper-cerium-zirconium catalysts for CO2 hydrogenation to methanol using high pressure in situ DRIFTS, Journal of Catalysis, 2020, 382: 129-140.
[2] Weiwei Wang, Zhenping Qu*, Lixin Song, Qiang Fu*, CO2 hydrogenation to methanol over Cu/CeO2 and Cu/ZrO2 catalysts: Tuning methanol selectivity via meal-support interaction, Journal of Energy Chemistry, 2020, 40: 22-30.
[3] Cui Dong, Zhenping Qu*, Xiao Jiang, Yewei Ren, Tuning oxygen vacancy concentration of MnO2 through metal doping for improved toluene oxidation, Journal of Hazardous Materials, 2020, 391: 122181-122193.
[4] Cui Dong, Zhenping Qu*, Yuan Qin, Qiang Fu, Hongchun Sun, Xiaoxiao Duan, Revealing the Highly Catalytic Performance of Spinel CoMn2O4 for Toluene Oxidation: Involvement and Replenishment of Oxygen Species Using in situ Designed-TP Techniques, ACS Catalysis, 2019, 9, 6698−6710.
[5] Yuan Qin, Hui Wang, Cui Dong, Zhenping Qu*, Evolution and enhancement of the oxygen cycle in the catalytic performance of total toluene oxidation over manganese-based catalysts, Journal of Catalysis, 2019, 380: 21–31.
[6] Xiaoyu Zhang, Hui Wang, Xiao Jiang, Hongchun Sun, Zhenping Qu*，Study of Synergistic Effect between CuO and CeO2 over CuO@CeO2 Core-Shell Nanocomposites for NH3-SCO, 2019, Catal. Sci. Technol., 2019, 9, 2968-2981.
[7] Zhexi Lin, Rui Chen, Zhenping Qu*, Jingguang G. Chen*, Hydrodeoxygenation of biomass-derived oxygenates over metal carbides: from model surfaces to powder catalysts, Green Chem., 2018, 20, 2679-2696
[8] Jinpeng Du, Zhenping Qu*, Cui Dong, Lixin Song, Yuan Qin, Na Huang，Low-temperature abatement of toluene over Mn-Ce oxides catalysts synthesized by a modified hydrothermal approach, Applied Surface Science, 2018, 433, 1025–1035
[9] Hui Wang, Zhenping Qu*, Shicheng Dong, and Chen Tang, Mechanistic Investigation into the Effect of Sulfuration on the FeW Catalysts for the Selective Catalytic Reduction of NOx with NH3, ACS Appl. Mater. Interfaces, 2017, 9 (8), 7017–7028
[10] Hui Wang, Zhenping Qu*, Shicheng Dong, Hongbin Xie and Chen Tang, Superior performance of Fe1-xWxOδ for the selective catalytic reduction of NOx with NH3: interaction between Fe and W, Environmental Science & Technology, 2016, 50(24), 13511−13519
[11] Hui Wang, Zhenping Qu*,Hongbin Xie, Nobutaka Maeda, Lei Miao, Zhong Wang, Insight into the mesoporous FexCe1-xO2-d catalysts for selective catalytic reduction of NO with NH3: Regulable structure and activity, Journal of Catalysis, 2016, 338, 56–67
[12] Zhenping Qu*, Zhong Wang, Xiaoyu Zhang, Hui Wang, Role of different coordinated Cu and reactive oxygen species on the highly active Cu–Ce–Zr mixed oxides in NH3-SCO: a combined in situ EPR and O2-TPD approach, Catal. Sci. Technol., 2016, 385, 4491-4502
[13] Zhenping Qu*, Xiaodong Zhang, Fangli Yu, Xianchun Liu, Qiang Fu, Role of the Al chemical environment in the formation of silver species and its CO oxidation activity, Journal of Catalysis, 2015, 321, 113-122
[14] Zhenping Qu*, Lei Miao, Hui Wang, Qiang Fu, Highly dispersed Fe2O3 on carbon nanotubes for low-temperature selective catalytic reduction of NO with NH3, Chemical Communications, 2015, 51(5), 956-958 (SCI, Impact Factor: 6.164)
[15] Zhenping Qu*,Yahui Sun, Dan Chen, Yi Wang, Possible sites of copper located on hydroxyapatite structure and the identification of active sites for formaldehyde oxidation, Journal of Molecular Catalysis. A, Chemical, 2014, 393, 182–190
[16] Zhenping Qu*, Yibin Bu, Yuan Qin, Kang Gao, Yi Wang, Qiang Fu, The improved reactivity of manganese catalysts by Ag in catalytic oxidation of Toluene, Applied Catalysis B: Environmental, 2013, 132-133, 353-362.
[17] Dan Chen, Zhenping Qu*, Yahui Sun, Kang Gao, Yi Wang, Identification of reaction intermediates and mechanism responsible for highly active HCHO oxidation on Ag/MCM-41 catalysts, Applied Catalysis B: Environmental, 2013, 142-143, 838-848.
[18] Zhong Wang, Zhenping Qu*, Xie Quan, Hui Wang, Zhuo Li, Selective catalytic oxidation of a mmonia to nitrogen over CuO-CeO2 mixed oxides prepared by surfactant-templated method, Applied Catalysis B: Environmental, 2013, 134-135, 153-166.
[19] Xiaodong Zhang, Zhenping Qu*, Fangli Yu, Yi Wang, High-temperature diffusion induced high activity of SBA-15 supported Ag particles for low temperature CO oxidation at room temperature, Journal of Catalysis, 2013, 297, 264-271.
[20] Zhenping Qu*, Zhong Wang, Xie Quan, Hui Wang, Yun Shu, Selective catalytic oxidation of ammonia to N2 over wire-mesh honeycomb catalyst in simulated synthetic ammonia stream, Chemical Engineering Journal, 2013, 233, 233-241.
[21] Zhenping Qu*, Fangli Yu, Xiaodong Zhang, Yi Wang, Jinsuo Gao, Support effects on the structure and catalytic activity of mesoporous Ag/CeO2 catalysts for CO oxidation, Chemical Engineering Journal, 2013, 229, 522-532.
[22] Zhenping Qu*,Yibin Bu, Yuan Qin, Yi Wang, Qiang Fu, The effects of alkali metal on structure of manganese oxide supported on SBA-15 for application in the toluene catalytic oxidation, Chemical Engineering Journal, 2012, 209, 163-169.