基本信息

职称：资格副教授

所在系室：环境科学与工程

联系方式：fanyumeng14@126.com

通信地址：欧洲杯线上买球官网，243002

教育背景

2017.9—2022.6   南京理工大学，化学工程与技术 硕博连读

2013.9—2017.6   山东科技大学，化学工程与工艺 大学本科

研究方向

催化反应工程。

代表性论文专著

[1] Meng Fanyu, Guo Lina, Zou Haocheng, Zhu Boming, Zhou Fayang, Zeng Yiqing, Zhang Shule*, Zhong Qin*. Mechanism study on TiO₂ inducing •O₂^– and •OH radicals in O₃/H₂O₂ system for high-efficiency NO oxidation[J]. Journal of Hazardous Materials, 2020, 399: 123033.

[2] Meng Fanyu, Zhang Shule*, Zeng Yiqing, Zhang Mingjia, Zou Haocheng, Zhong Qin*. Promotional effect of surface fluorine on TiO₂: Catalytic conversion of O₃ and H₂O₂ into •OH and •O₂^– radicals for high-efficiency NO oxidation[J]. Chemical Engineering Journal, 2021, 424: 130358.

[3] Zhang Mingjia¹, Meng Fanyu¹, Zhang Shule*, Zeng Yiqing, Zhong Qin*. Sulfur-doping promoting peroxone reaction over TiO₂ for highly effective NO oxidation at low temperature: Experimental and DFT studies[J]. Chemical Engineering Journal, 2022, 429: 132475.

[4] Meng Fanyu, Zhang Mingjia, Zhang Shule*, Zhong Qin*. TiO₂ with exposed {001} facets catalyzed peroxone reaction into •O₂^– and •OH radicals for low temperature NO oxidation[J]. Fuel, 2022, 314: 122748.

[5] Meng Fanyu, Zhang Shule*, Zhang Mingjia, Zhong Qin*. The mechanism of Ce-MCM-41 catalyzed peroxone reaction into •OH and •O₂^– radicals for enhanced NO oxidation[J]. Molecular Catalysis, 2022, 518: 112110.

[6] Meng Fanyu, Zhang Shule*, Li Xiaohai, Zeng Yiqing, Zhong Qin*. CrO_x assembled at the oxygen vacancies on black-TiO₂ for NO oxidation[J]. Molecular Catalysis, 2019, 473: 110393.

[7] Li Xiaohai¹, Meng Fanyu¹, Zhang Shule*, Zhang Mingjia, Zeng Yiqing, Zhong Qin*. The effect of polyethylene glycol modification on CrO_x/TiO₂ catalysts for NO oxidation[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2019, 578: 123588.

[8] Meng Fanyu, Guo Lina, He Jianyu, Wang Zhongyu, Ma Zhiguo, Zeng Yiqing, Zhang Shule*, Zhong Qin*. V₂O₅-(NH₄)₂V₆O₁₆•1.5H₂O composite catalysts as novel platforms for high-efficiency catalytic ozonation of NO under low temperature[J]. Journal of Physics and Chemistry of Solids, 2021, 155: 110112.

[9] Meng Fanyu, Zhang Mingjia, Zhou Fayang, Zou Haochen, Zhu Boming, Zeng Yiqing, Zhang Shule*, Zhong Qin*. CrO_x anchored on the black-TiO₂ surface via organic carboxylic acid ligand and its catalysis in oxidation of NO[J]. Catalysis Letters, 2021, 151: 1755–1765.