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Hongying Zhao, Associate Professor
School of Chemical Science and Engineering, Tongji University
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Office:
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Chemistry Building 436
Siping Road 1239, Shanghai 200092, P. R. China
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Tel:
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+86-21-65988570-8436
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Fax:
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+86-21-65981097
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E-mail:
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hyzhao@tongji.edu.cn
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Introduction
I Research Area:
1.The development of photo-electro-Fenton oxidation process for efficiently destructing typical environmental pollutants. The investigation and understanding of the synthetic effect between electrocatalytic and Fenton oxidation.
2.The design of novel and functional electro-Fenton cathodes with high activity, high stability and wide pH range, and their catalytic application in the wastewater treatment.
3.The 2-electron reduction of oxygen to H2O2 over carbon aerogel-based catalysts
II Academic Achievements:
Projects:
1.National Natural Science Foundation of China (NSFC) Program: Efficient electrochemical oxidation of perfluorinated compounds assisted with electro-Fenton reaction and its mechanism. Project Leader: Hongying ZHAO, 2017,01-2020,12.
2.National Natural Science Foundation of China (NSFC) Program for Young Scholars: Efficiently degrading large-scale pollutant using novel Fenton system with mesoMOFs(Fe)/Iron NPs catalysts and catalytic mechanism, Project leader: Hongying Zhao, 2013, 01~2015, 12.
3.Shanghai Chenguang Programe: Investigation on rapidly depredating refractory organic by microwave-induced oxidation method with Novel and Functional Spinel Ferrites, Project leader: Hongying ZHAO, 2012, 01~2014.01.
Publication:
[22]. Hongying Zhao, Ying Chen, Qiusheng Peng, Qingning Wang, Guohua Zhao*, Catalytic activity of MOF(2Fe/Co)/carbon aerogel for improving H2O2 and ∙OH generation in solar photo‒electro‒Fenton process, Applied Catalysis B: Environmental, 2016, Accepted.
[21]. Hongying Zhao, Lin Qian, Xiaohong Guan, Deli Wu, and Guohua Zhao*, Continuous bulk FeCuC aerogel with ultradispersed metal nanoparticles: An efficient 3D heterogeneous electro-Fenton cathode over a wide range of pH 3-9, Environmental Scinece & Technology, 50 (2016) 5225-5233.
[20]. Hongying Zhao, Lin Qian, Huanli Lv, Yanbin Wang, and Guohua Zhao*, Introduction of core Fe3O4 for enhancing photocatalytic activity of MIL-100(Fe) with designable thickness in the presence of H2O2, ChemCatChem, 7 (2015) 4148-4155.
[19]. Hongying Zhao #, Guangfeng Wei #, Junxia Gao, Zhipan Liu*, Guohua Zhao*, Ultrasonic Electrochemical Reaction on Boron-Doped Diamond Electrodes: Reaction Pathway and Mechanism, ChemElectroChem, 2 (2015) 366-373.
[18]. Qiusheng Peng, Hongying Zhao*, Lin Qian, Yanbin Wang, Guohua Zhao*, Design of a neutral photo-electro-Fenton system with 3D-ordered macroporous Fe2O3/carbon aerogel cathode: High activity and low energy consumption, Applied Catalysis B: Environmental, 174 (2015) 157-166.
[17]. Huanli Lv, Hongying Zhao*, Tongcheng Cao, Lin Qian, Yanbin Wang, Guohua Zhao*,Efficient degradation of high concentration azo-dye wastewater by heterogeneous Fenton process with iron-based metal-organic framework, Journal of Molecular Catalysis A: Chemical 400 (2015) 81–89.
[16]. Yanbin Wang, Hongying Zhao, Guohua Zhao, Iron-copper bimetallic nanoparticles embedded within orderedmesoporous carbon as effective and stable heterogeneous Fentoncatalyst for the degradation of organic contaminants, Applied Catalysis B: Environmental 164 (2015) 396–406.
[15]. Yanbin Wang, Hongying Zhao, Mingfang Li, Jiaqi Fan, Guohua Zhao, Magnetic ordered mesoporous copper ferrite as a heterogeneous Fenton catalyst for the degradation of imidacloprid, Applied Catalysis B: Environmental 147 (2014) 534–545.
[14]. Hongying Zhao, Junxia Gao, Guohua Zhao*,Jiaqi Fan, Yanbin Wang, Fabrication of novel SnO2-Sb/carbon aerogel electrode for ultrasonic electrochemical oxidation of perfluorooctanoate with high catalytic efficiency, Applied Catalysis B: Environmental 136–137 (2013) 278–286.
[13]. Hongying Zhao, Jinlei Cao, Huanli Lv, Yanbin Wang, Guohua Zhao*, 3D nano-scale perovskite-based composite as Fenton-like system for efficient oxidative degradation of ketoprofen, Catalysis Communications 41 (2013) 87–90.
[12]. Yanbin Wang, Hongying Zhao*, Guohua Zhao*, Yujing Wang, Xiuchun Yang, Iron Compound-Based Heterogeneous Fenton Catalytic Oxidation Technology, Progress in Chemistry 25 (2013) 1246–1259.
[11]. Yujing Wang, Hongying Zhao, Shuoning Cai, Yabo Wang, Guohua Zhao*, Dongming Li, Electrosorption enhanced electro-Fenton process for efficient mineralization of imidacloprid based on mixed-valence iron oxide composite cathode at neutral pH, Chemical Engineering Journal 223 (2013) 524–535.
[10]. Jiaqi Fan, Guohua Zhao*, Hongying Zhao, Shuoning Chai, Tongcheng Cao, Fabrication and application of mesoporous Sb-doped SnO2 electrode with high specific surface in electrochemical degradation of ketoprofen, Electrochimica Acta 94 (2013) 21–29.
[9]. Hongying Zhao, Yujing Wang, Yanbin Wang, Tongcheng Cao, Guohua Zhao*, Electro-Fenton oxidation of pesticides with a novel Fe3O4@Fe2O3/activated carbon aerogel cathode: High activity, wide pH range and catalytic mechanism, Applied Catalysis B: Environmental 125 (2012) 120–127.
[8]. Yujing Wang, Hongying Zhao, Junxia Gao, Guohua Zhao*, Yonggang Zhang, Yalei Zhang, Rapid Mineralization of Azo-Dye Wastewater by Microwave Synergistic Electro-Fenton Oxidation Process, Journal of Physical Chemistry C 116 (2012) 7457–7463.
[7]. Hongying Zhao, Simona Bennici, Jianyi Shen, Aline Auroux*, “Nature of surface sites of V2O5-TiO2/SO42- catalysts and reactivity in selective oxidation of methanol to DMM” Journal of Catalysis 272 (2010) 176-189.
[6]. Hongying Zhao, Simona Bennici, Jingxuan Cai, Jianyi Shen, Aline Auroux*, “Influence of the metal oxide support on the surface and catalytic properties of sulfated vanadia catalysts for selective oxidation of methanol”, Journal of Catalysis 274 (2010) 259-272.
[5]. Hongying Zhao, Simona Bennici, Jianyi Shen, Aline Auroux*, “Influence of the host oxide of sulfated-titania catalysts on partial oxidation methanol reaction” Applied Catalysis A: General 385 (2010) 224-231.
[4]. Hongying Zhao, Simona Bennici, Jingxuan Cai, Jianyi Shen, Aline Auroux*, “Effect of vanadia loading on the acidic, redox and catalytic properties of V2O5–TiO2 and V2O5–TiO2/SO42- catalysts for partial oxidation of methanol”, Catalysis Today 152 (2010) 70-77.
[3]. Hongying Zhao, Simona Bennici, Jianyi Shen, Aline Auroux*, “Calorimetric study of the acidic character of V2O5–TiO2/SO42- catalysts used in methanol oxidation to dimethoxymethane”, Journal of Thermal Analysis and Calorimetry 99 (2010) 843-847.
[2]. Hongying Zhao, Simona. Bennici, Jianyi Shen, Aline. Auroux*, “The influence of the preparation method on the structural, acidic and redox properties of V2O5–TiO2/SO42- catalysts”, Applied Catalysis A: General 356 (2009) 121-128.
[1]. Hongying Zhao, Simona Bennici, Jianyi Shen, Aline Auroux*, “Surface and catalytic properties of V2O5–TiO2/SO42- catalysts for the oxidation of methanol prepared by various methods”, Journal of Molecular Catalysis A: Chemical 309 (2009) 28-34.
