►个人简介
工作职位:副教授,硕士生导师
办公地址:青岛科技大学CCF大楼0709室
工作邮箱:fqmeng19@163.com(邮箱随时查看)
2019年获得大连理工大学博士学位,2019年6月加入青岛科技大学化工学院,主要从事压力敏感型压电材料、高活性吸附材料的设计及其在水处理和能量转化等领域的研究,山东省创新团队项目负责人,主持国家及省部级项目3项,主持企业委托项目2项,参与国家高技术研究发展计划(863计划)、国家自然科学基金面上项目等5项。在Appl. Catal. B: Environ., Chem. Eng. J., Nano Energy, Bioresource Techno.,和Chem. Eng. Sci等期刊上发表论文20余篇,受邀担任JCR2区,Processes期刊编辑,授权国家发明专利7项、国际发明专利2项。
►教学成果获奖
山东省第九届教学成果二等奖(2022年,高等教育类)。
山东省互联网+创新创业大赛金奖(2023年)。
山东省科技进步奖一等奖,13/15,(2023年)。
国家级大学生创新创业训练第一指导教师(2021、2022、2023年)。
全国大学生生命科学竞赛特等奖(2022,创新创业类)。
山东省大学生生物科技创新创业大赛优秀指导教师(2021年)。
全国大学生电子商务“创新、创意及创业”挑战赛山东省赛区银奖(2021年)。
►教学情况
1、本科生课程
[1] 化工原理:48课时,本科生。
[2] 化工工艺模拟计算:32课时,本科生。
[3] 化工原理实验A2:16课时,本科生。
2、研究生课程
[1] 化工过程模拟:24课时,研究生。
►发表论文与专著
[1] Jingxue Wang, Xiaonan Zhou, Fanqing Meng*, et al. Sustainable self-powered degradation of antibiotics using Fe3O4@MoS2/PVDF modified pipe with superior piezoelectric activity: Mechanism insight, toxicity assessment and energy consumption. Applied Catalysis B: Environmental. 2023, 331, 122655.
[2] Fanqing Meng, Yinglong Wang, Wei Ma, et al. Synthesis of CQDs@FeOOH nanoneedles with abundant active edges for efficient electro-catalytic degradation of levofloxacin: degradation mechanism and toxicity assessment. Applied Catalysis B: Environment. 2021, 282, 119597.
[3] Meng, Fanqing, Ma Wei, Chunying Duan, et al. High efficient degradation of levofloxacin by edge-selectively Fe@3D-WS2: Self-renewing behavior and Degradation mechanism study. Applied Catalysis B: Environment., 2019, 252, 187-197.
[4] Zichen Wang, Manqi Xiang, Bingjie Huo, Jingxue Wang, Lina Yang, Wei Ma, Jianguang Qi, Yinglong Wang, Zhaoyou Zhu, Fanqing Meng*, A novel ZnO/CQDs/PVDF piezoelectric system for efficiently degradation of antibiotics by using water flow energy in pipeline: Performance and mechanism. Nano Energy. 2023, 107, 108162.
[5] Xiaxia Chen, Xiang Wang, Jingxue Wang, Hongwei Xu, Chao Liu, Yinglong Wang, Shiqin Sun, Peizhe Cui, Fanqing Meng*, Enhancing the piezocatalytic performance of C3N5 through boron/oxygen doping for effective degradation of chlortetracycline. Chemical Engineering Science. 2024, 298, 120351.
[6] Chao Liu, Lifang Zhao, Jiaxuan Li, Jingxue Wang, Hongwei Xu, Xiaxia Chen,
Jianguang Qi, Chaoyue Sun, Zhaoyou Zhu, Yinglong Wang*, Fanqing Meng*, Peroxymonosulfate activation by low-cost modified rubber during contact electrification for antibiotics efficient degradation at circumneutral pH: Mechanism and toxicity assessment. 2024, 285, 119642.
[7] Fanqing Meng, Chao Liu, Juan Guo, Jingxue Wang, et al. Water-flow driven activation flexible PANI/β-PVDF piezoelectric spheres with enhanced piezoelectric properties for efficient degradation of organic pollutants. Separation and Purification Technology, 2025, 353, 128434.
[8] Bingjie Huo, Jingxue Wang, Fanqing Meng*, et al. Bubble-driven piezo-activation of E-MoS2/PVDF piezoelectric microcapsule for antibiotic degradation with ultralow energy consumption. J Clean Prod. 2023, 419, 138333.
[9] Jingxue Wang, Yanting Liang, Fanqing Meng*, et al. High efficiently degradation of organic pollutants via low-speed water flow activation of Cu2O@MoS2/PVDF modified pipeline with piezocatalysis performance, Chemical Engineering Journal. 2023, 458, 141409.
[10] Bingjie Huo; Fanqing Meng*; Jingwei Yang; Yinglong Wang, et al. High efficiently piezocatalysis degradation of tetracycline by few-layered MoS2/GDY: Mechanism and toxicity evaluation, Chemical Engineering Journal. 2022, 436, 35173.
[11] Zichen Wang; Bingjie Huo; Jingxue Wang; Fanqing Meng*; Yinglong Wang, et al. In situ synthesis of flower structure ZnO@YFC for efficient piezo-catalytic degradation of tetracycline wastewater: Degradation mechanism and toxicity evolution, Applied surface science. 2022, 602, 154330.
[12] Fanqing Meng*; Wei Ma; Yinglong Wang, et al. A tribo-positive Fe@MoS2 piezocatalyst for the durable degradation of tetracycline: degradation mechanism and toxicity assessment, Environmental Science: Nano, 2020, 7, 1704-1718.
[13] Zichen Wang, Hongbin Li, Fanqing Meng*, et al. Highly efficient electro-catalysis activationof peroxymonosulfate by “used” As/Cr/Mo@FeOOH material for the degradation of metronidazole: Degradation mechanism and toxicity assessment. J Taiwan Inst Chem E. 2021, 1-11.
[14] Yinglong Wang, Yigang Liu, Fanqing Meng*, et al. Novel Postcombustion Capture Process for CO2 from the Flue Gas of Coal-Fired Power Plants Using a Green Deep Eutectic Solvent. ACS Sustain Chem. Eng. 2020, 8, 2236-2245.
[15] Meng, Fanqing, Yang Bowen, Ma Wei, et al. Novel dendrimerlike magnetic biosorbent based on modified orange peel waste: adsorption-reduction behavior of arsenic. ACS Sustain Chem. Eng. 2017, 5, 9692-9700.
[16] Fanqing Meng, Wei Ma, Panpan Zong, et al. Synthesis of a novel catalyst based on Fe(II) / Fe(III) oxide and high alumina coal fly ash for the degradation of o-methyl phenol. J Clean Prod. 2016, 133, 986-993.
[17] Fanqing Meng, Wei Ma, Lei Wu, et al. Selective and efficient adsorption of boron (III) from water by 3D porous CQDs/LDHs with oxygen-rich functional groups. J Taiwan Inst Chem E. 2018, 83, 192-203.
►授权专利
[1] Preparation method and application of ultra high activity modified CdS material piezoelectric catalytic material, 专利号:AU2021105050
[2] Method for Preparing and Applying Long-life Friction-sensitive Graphdiyne-based Piezoelectric Material, 专利号:AU2021105368
[3] 一种三塔热集成变压精馏分离异丁醇、乙酸异丁酯、乙醇的方法,专利号:ZL202110498462.0
[4] 一种超高活性改性CdS材料压电催化材料的制备方法及应用,专利号:ZL202010154016.3
[5] 一种热泵萃取精馏分离苯-正丙醇-水混合物的方法,专利号:ZL202110498458.4
[6] 一种高寿命摩擦敏感型石墨炔基压电材料的制备及应用方法,专利号:ZL202010552676.7
[7] 一种柔性生物质基压电材料的制备方法及应用,专利号:ZL202110498457.X
[8] 一种柔性压电衬管的制备及自驱动降解有机污染物的应用,专利号:ZL202210670917.7
►主持或参加项目
[1] 中国博士后科学基金面上项目,2023M732134,C3N5/PP压电驻极体的3D打印可控制备及水流动力驱动降解卡马西平机制研究,在研,主持。
[2] 山东省淄博市博士后基金配套资助项目,在研,主持。
[3] 山东省“青创团队计划”项目,2022KJ306,在研,带头人。
[4] 山东省自然科学基金青年项目,ZR2020QF60,基于界面调控策略的C3N5/PVDF压电催化材料构筑及降解PPCPs机制研究,结题,主持。
[5] 山东省自然科学基金青年项目,ZR201911110305,石墨炔基MoS2材料的构筑及其高效压电催化降解喹诺酮类抗生素研究,结题,主持。
[6] 国家自然科学基金面上项目,21677027,胶体喷射制备CQDs-Fe双助光催化材料及降解含-CN化合物机理,在研,参加。
化工学院微信 
