School of Environmental Science and Engineering
Associate professor
8613920176659
chenhong_0405@tju.edu.cn
Hong Chen, female, Industrial Catalysis Ph.D of Tianjin University, postdoctoral fellow at Nanyang Technological University, a visiting scholar at Connecticut University. Now she works in the School of Environmental Science and Engineering of Tianjin University as an assistant professor. Her main research interests are the bioconversion of agricultural wastes and the design and synthetic methods of advanced catalyst materials. She has undertaken national natural science foundation projects and three independent subjects. She has published more than 20 papers in Green Chemistry, Catalysis Science and Technology, Physical chemistry Chemical Physics, ACS appl. Mater In green chemistry, Catalysis Science and Technology, Physical chemistry Chemical Physics, ACS appl. Mater., and other journals, four invention patents were obtained with her research. Plus she achieved the second prize of science and technology innovation award in Tianjin Binhai new area. She worked as a special editor of “the Frontiers of Chemical Science and Engineering” and as reviewer for more than 10 SCI journals.
- PhD| Tianjin University| Industrial catalysis| 2010
- 工业催化,环境催化,光催化
- Biomass energy resources
- Oxidation reaction and oxidative catalyst research。
- The bioconversion of agricultural wastes and the design and synthetic methods of advanced catalyst materials
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2013.7-2019.12
School of Environmental Science and Engineering | Tianjin University | Assistant Professor -
2011.9-2013.7
School of Chemical and Biomedical Engineering | Nanyang Technological University, Sigapore | Postdoc -
2014.7-2015.7
Chemistry | Connecticut University, United State | , Visiting Scholar
- Papers
- [1] [19] Yan, F, Sang, Y, Bai, Y, Wu, K, Cui, K, Wen, Z, Mai, F, Ma, Z, Yu, L, Chen, H, Li, Y. Guaiacol Demethoxylation Catalyzed by Re2O7 in Ethanol. Catal. Today 2020, 355,
- [2] [18] Sang, Y, Wu, K, Liu, Q, Bai, Y, Chen, H, Li, Y. Catalytic Ethanolysis of Enzymatic Hydrolysis Lignin over an Unsupported Nickel Catalyst: The Effect of Reaction Conditions. Energy Fuels 2021, 35 (1), 519-528.
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- [3] [17] Sang, Y, Chen, M, Yan, F, Wu, K, Bai, Y, Liu, Q, Chen, H*, Li, Y. Catalytic Depolymerization of Enzymatic Hydrolysis Lignin into Monomers over an Unsupported Nickel Catalyst in Supercritical Ethanol. Ind. Eng. Chem. Res. 2020, 59 (16), 7466–7474.
- [4] (16) Linhao Yu, Hong Chen, Zhe Wen, Mengmeng Jin, Xueli Ma, Yingying Li, Yushuai Sang, Mengmeng Chen, Yongdan Li, Efficient aerobic oxidation of 5-hydroxymethylfurfural to 2, 5-furandicarboxylic acid over a nanofiber globule La-MnO2 catalyst, Ind. Eng. Chem. Res. 60 (2021) 1624-1632,
- [5] (15) Kai Wu, Saravanan Kasipandi, Zhe Wen, Fei Yan, Yushuai Sang, Zewei Ma, Mengmeng Chen, Hong Chen, Yongdan Li, Selective demethoxylation of guaiacol to alkylphenols in supercritical methanol over a HT-MoS2 catalyst. Catalysis Today, 368 (2021) 260-271,
- [6] [14] Pan, Z.-Z, Li, Y*, Zhao, Y, Zhang, C, Chen, H*. Bulk Phase Charge Transfer in Focus – And in Sequential along with Surface Steps. Catalysis Today 2021, 364, 2–6.
- [7] [13] Jin, M, Yu, L, Chen, H*, Ma, X, Cui, K, Wen, Z, Ma, Z, Sang, Y, Chen, M, Li, Y*. Base-Free Selective Conversion of 5-Hydroxymethylfurfural to 2,5-Furandicarboxylic Acid over a CoOx-CeO2 Catalyst. Catalysis Today 2021, 367, 2–8. 660.
- [8] [12] Yu, L, Chen, H*, Wen, Z, Jin, M, Ma, Z, Ma, X, Sang, Y, Chen, M, Li, Y*. Highly Selective Oxidation of 5-Hydroxymethylfurfural to 2,5-Diformylfuran over an α-MnO2 Catalyst. Catal Today 2021, 367, 9–15.
- [9] [11] Ma, Z, Kasipandi, S, Wen, Z, Yu, L, Cui, K, Chen, H*, Li, Y. Highly Efficient Fractionation of Corn Stover into Lignin Monomers and Cellulose-Rich Pulp over H2WO4. Appl Catal B-environ 2021, 284, 119731. 2
- [10] [10] Yingying Li, Hong Chen, Efficient Selective Oxidation of 5-Hydroxymethylfurfural with Oxygen over a ZnCrAl Mixed Oxide Catalyst Derived from Hydrotalcite-like Precursor, INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,2022,61:11597-11603
- [11] [9] Kasipandi, S, Li, Y*, Chen, H*. N-Doped Carbon Nanotube Encapsulated Cobalt for Efficient Oxidative Esterification of 5-Hydroxymethylfurfural. Reaction Chemistry & Engineering 2022, 7.
- [12] [8] Liu, L, Meng, G, Laghari, A. A, Chen, H*, Wang, C*, Xue, Y. Reducing the Risk of Exposure of Airborne Antibiotic Resistant Bacteria and Antibiotic Resistance Genes by Dynamic Continuous Flow Photocatalytic Reactor. J Hazard Mater 2022, 429, 128311.
- [13] [7] Chen, H*, Li, Y, Yu, L, Wang C, Ma Xue, Wang C, Li, Y. Hydroxyapatite Supported Manganese Oxide as a Heterogeneous Catalyst for the Synthesis of 2,5-Diformylfuran. Catal. Lett. 2022, 152, 3716–3724.
- [14] [6] Yong, X, Chen, H*, Zhao, H, Wei, M, Zhao, Y, Li, Y. Insight into SO2 Poisoning and Regeneration of One-Pot Synthesized Cu-SSZ-13 Catalyst for Selective Reduction of NOx by NH3. Chinese Journal of Chemical Engineering 2022, 46, 184–193.
- [15] [5] Liu, L, laghari, A. A, Meng, G, Chen, H*, Wang, C*, Xue, Y. Photocatalytic Disinfection of Different Airborne Microorganisms by TiO2/MXene Filler: Inactivation Efficiency, Energy Consumption and Self-Repair Phenomenon. Journal of Environmental Chemical Engineering 2022, 10 (3), 107641.
- [16] [4] Laghari AA, Liu L, Kalhoro DH, Chen H*, Wang C. Mechanism for Reducing the Horizontal Transfer Risk of the Airborne Antibiotic-Resistant Genes of Escherichia coli Species through Microwave or UV Irradiation. Int J Environ Res Public Health. 2022. 19(7):4332.
- [17] [3] Laghari AA, Jiang GY*, Kalhoro DH, Chen H*, Wang C*. Deactivation of airborne bacteria, fungi, and viruses by microwave absorption material Fe3O4@SiCcf. Aerosol Science & Technology. 2022. 57, 12-23.
- [18] [2] Liu, Q, Sang, Y, Bai, Y, Wu, K, Ma, Z, Chen, M, Ma, Y, Chen, H*, Li, Y. Catalytic Conversion of Kraft Lignin into Platform Chemicals in Supercritical Ethanol over a Mo(OCH2CH3)x/NaCl Catalyst. Catalysis Today 2023, 408, 204–210.
- [19] [1] Tang, Y.; Lv, W.; Wang, Y.; Chen, H.; Li, Y.; Wang, C.; Xu, G. Research Progress of Co and Mn-Based Catalysts for the Oxidation of 5-Hydroxymethylfurfural. ChemCatChem 2024, 16 (8)