Education Background

09/2000-06/2004     Fudan University  Department of Environmental Science and Engineering     B.S.

09/2004-06/2007     Tsinghua University Department of Environmental Science and Engineering M.S.

10/2011-12/2014     University of Caen  Laboratoire Catalyse et Spectrochimie (LCS)                   Ph.D

Work Experience

10/2016 to present    School of Environment,Tsinghua University， Associate  Professor

Areas of Research Interests

Multi-pollutant Control in Flue Gas

CO² Capture and Utilization

Energy Storage and Utilization

Research Projects

1. Development Of Dedusting and Denitrification Integrated Filter For Industrial Flue Gas And Mechanism Of Multi-Pollutants Synergetic Removal, National Natural Science Foundation of China, 20210101～20241231.
2. Catalyst Design and Mechanism Study of Simultaneous Removal of NOx And Dioxin at Low-temperature, National Natural Science Foundation of China, 20190101～20221231.
3. Effect of Mos² Morphology on the Formation and Catalytic Performance of Active Sites on CoMo-Based Catalysts, National Natural Science Foundation of China,20170101～20191231.

Academic Achievement

1. Jianjun Chen_#, Rongqiang Yin _#, Gongda Chen _*, Junyu Lang, Xiaoping Chen, Xuefeng Chu, and Junhua Li _*. Selective capture of Tl²O from flue gas with formation of p-n junction on V²O⁵-WO³/TiO² catalyst under working conditions. Green Energy & Environment, 2022

2. Xiaoqing Liu_#, Jinxing Mi_#, Lin Shi, Haiyan Liu, Jun Liu, Yun Ding, Jianqiang Shi, Minghua He, Zisha Wang, Shangchao Xiong, Qinfang Zhang, Yuefeng Liu, Zhong-Shuai Wu, Jianjun Chen_*, Junhua Li. In situ modulation of A-site vacancies in LaMnO^3.15 perovskite for surface lattice oxygen activation and boosted redox reactions. Angewandte Chemie International Edition, 60(2021), 2-10. (Hot Paper)

3. Gongda Chen, Shangchao Xiong, Xiaoping Chen, Xuefeng Chu, Rongqiang Yin, Changdong Liu, Jianjun Chen_*, Junhua Li. Penetration of arsenic and deactivation of a honeycomb V²O⁵-WO³/TiO² catalyst in a glass furnace. Environmental Science & Technology, 55(2021), 11368-11374. (Supplementary Cover)

4. Wenzhe Si, Haiyan Liu, Tao Yan, Hui Wang, Chi Fan, Shangchao Xiong, Ziqi Zhao, Yue Peng, Jianjun Chen_*, Junhua Li. Sn-doped rutile TiO² for vanadyl catalysts: Improvements on activity and stability in SCR reaction. Applied Catalysis B:  Environmental, (2020), doi: https://doi.org/10.1016/j.apcatb.2020.118797

5. Tao Yan, Qi Liu, Shihao Wang, Gang Xu_*, Minghong Wu, Jianjun Chen_*, Junhua Li. Promoter rather than inhibitor: phosphorus incorporation accelerates the activity of V²O⁵WO³/TiO² catalyst for selective catalytic reduction of NO^x by NH³.ACS Catalysis, 2020, 10, 2747-2753.

6. Shangchao Xiong, Jianjun Chen_*, Nan Huang Shijian Yang, Yue Peng, Junhua Li. Balance between Reducibility and N²O Adsorption Capacity for the N²O Decomposition: CuxCoy Catalysts as an Example. Environmental Science & Technology. 2019, 53, 17, 10379-10386.

7. Qi Liu, Jinxing Mi, Xiaoping Chen, Shihao Wang, Jianjun Chen_*, Junhua Li. Effects of phosphorus modification on the catalytic properties and performance of CuCeZr mixed metal catalyst for simultaneous removal of CO and NO^x.Chemical Engineering Journal, 423(2021), 130228.

8. Lina Gan, Kezhi Li, Hejingying Niu^*, Yue Peng, Jianjun Chen_*, Yuandong Huang, Junhua Li. Simultaneous removal of NO^x and chlorobenzene on V²O⁵/TiO² granular catalyst: Kinetic study and performance prediction. Frontiers of Environmental Science & Engineering, 15(2021), 70.

9. Shangchao Xiong, Nan Huang, Yue Peng, Jianjun Chen_*, Junhua Li. Balance of activation and ring-breaking for toluene oxidation over CuO-MnO^x bimetallic oxides. Journal of Hazardous Materials, 415(2021), 125637.

10. Qin Wu, Xiaoping Chen, Jinxing Mi, Lei Ma, Weitao Zhao,Jianjun Chen_*, Junhua Li. The absence of oxygen in sulfation promotes the performance of the sulfated CeO² catalyst for low-temperature selective catalytic reduction of NO^x by NH³: Redox property versus acidity. ACS Sustainable Chemistry & Engineering, 9(2021), 967.

11. Shangchao Xiong, Jianjun Chen_*, Nan Huang, Tao Yana, Yue Peng, Junhua Li_*. The poisoning mechanism of gaseous HCl on low-temperature SCR catalysts: The MnO^x−CeO² as an example.Applied Catalysis B: Environmental, 267 (2020) 118668. (IF=14)

12. Shangchao Xiong, Yue Peng, Dong Wang, Nan Huang, Qinfang Zhang_⁎, Shijian Yang, Jianjun Chen_⁎, Junhua Li. The role of the Cu dopant on a Mn³O⁴ spinel SCR catalyst: Improvement of T low-temperature activity and sulfur resistance. Chemical Engineering Journal, 387 (2020) 124090.

13. Jianjun Chen_*, Weitao Zhao, Qin Wua, Jinxing Mi, Xiuyun Wang, Lei Ma, Lilong Jiang_*, Chaktong Au, Junhua Li. Effects of anaerobic SO² treatment on nano-CeO² of different morphologies for selective catalytic reduction of NO^x with NH³. Chemical Engineering Journal, 382 (2020) 122910.

14. Lina Gana, Kezhi Li, Weinan Yang, Jianjun Chen_*, Yue Peng, Junhua Li_⁎. Core-shell-like structured α-MnO²@CeO² catalyst for selective catalytic reduction of NO: Promoted activity and SO² tolerance. Chemical Engineering Journal. 2020.

15. Chi Fan, Kezhi Li, Yue Peng, Rui Duan, Fangyun Hu, Qinchao Jing, Jianjun Chen_*, Junhua Li. Fe-doped α-MnO² nanorods for catalytic removal of NO^x and chlorobenzene: The relationship between lattice distortion and catalytic redox properties.Physical Chemistry Chemical Physics. 2019, 21, 25880.

16. Tong Tong,Jianjun Chen_*, Shangchao Xiong, Wenhao Yang, Qilei Yang, Lijun Yang, Yue Peng, Zhiming Liu, Junhua Li. Vanadium-density-dependent thermal decomposition of NH⁴HSO⁴ on V²O⁵/TiO² SCR catalysts. Catalysis Science & Technology, 2019, 9, 3779.

17. Xiaowei Hong,Jianjun Chen_⁎, Yue Peng, Hua Song, Chizhong Wang, Junhua Li. Deactivation of Pt-Au/TiO²-CeO² catalyst for co-oxidation of HCHO, H² and CO at room temperature: Degradations of active sites and mutual influence between reactants. Applied Catalysis A, General. 582 (2019) 117116.

18. Tao Zhang, Xuan Qin, Yue Peng, Chizhong Wang, Huazhen Chang_*,Jianjun Chen_*, Junhua Li. Effect of Fe precursors on the catalytic activity of Fe/SAPO-34 catalysts for N²O decomposition.Catalysis Communications. 128 (2019) 105706.

19. Bing Li, Qilei Yang, Yue Peng,Jianjun Chen_*, Lei Deng, Dong Wang, Xiaowei Hong, Junhua Li_*. Enhanced Low-Temperature Activity of LaMnO³ for Toluene Oxidation: The Effect of Treatment with an Acidic KMnO⁴. Chemical Engineering Journal. 2019, 366: 92-99.

20. Fangyun Hu, Jianjun Chen_*, Yue Peng, Hua Song, Kezhi Li, Junhua Li_*. Novel Nanowire Self-assembled Hierarchical CeO² Microspheres for Low Temperature Toluene Catalytic Combustion. Chemical Engineering Journal. 2018, 331: 425-434. (IF=6.735) (ESI Highly Cited Paper)

21. Jianjun Chen, Jincheng Zhang, Jinxing Mi, Elizabeth Dominguez Garcia, Yanning Cao, Lilong Jiang, Laetitia Oliviero, Francoise Mauge. Hydrogen Production by Water-gas Shift Reaction over Co-Promoted MoS²/Al²O³ Catalyst: The Intrinsic Activities of Co-Promoted and Unprompted Sites.International Journal of Hydrogen Energy. 2018, 43(15): 7405-7410.

22. Jinxing Mi, Jincheng Zhang, Yanning Cao, Chongqi Chen, Xingyi Lin, Jianjun Chen_*, Lilong Jiang_*. Sulfur resistant WGS catalyst for hydrogen production based on CoMo supported by Nb modified MgAl mixed oxide. International Journal of Hydrogen Energy. 2017.

23. Kezhi Li, Jianjun Chen_*, Yue Peng, Weichen Lin, Tao Yan, Junhua Li_*. The relationship between surface open cells of α-MnO² and CO oxidation ability from a surface point of view.Journal of Materials Chemistry A. 2017, 5 (IF=8.867, 一区).

24. Jianjun Chen, Jinxing Mi, Kezhi Li, Xiqin Wang, Elizabeth Dominguez Garcia, Yanning Cao, Lilong Jiang,^* Laetitia Oliviero,^* Françoise Mauge. Role of Citric Acid in Preparing Highly Active CoMo/Al₂O₃ Catalyst: From Aqueous Impregnation Solution to Active Site Formation. Industrial & Engineering Chemistry Research. 2017, 56(48): 14172-14181. (IF=2.843, 二区).

25. Kezhi Li, Jianjun Chen _*, Bingyang Bai, Shen Zhao, Fangyun Hu, Junhua Li. Bridging the Reaction Route of Toluene Total Oxidation and the Structure of Ordered Mesoporous Co³O⁴: the Roles of Surface Sodium and Adsorbed Oxygen.Catalysis Today. 2017.

26. Fangyun Hu, Jianjun Chen _*, Shen Zhao, Kezhi Li, Wenzhe Si, Hua Song, Junhua Li_*. Toluene Catalytic Combustion over Copper Modified Mn^0.5Ce^0.5O^x Solid Solution Sponge-like Structures. Applied Catalysis A: General. 2017, 540: 57-67.

27. Jianjun Chen, Xiqin Wang, Yuanyuan Yue, Huifang Guo, Jixing Mi, Yanning Cao, Lilong Jiang. CoMo Sulfur-tolerant Water-gas Shift Catalyst Derived from an Anderson-type Heteropolyanion Precursor. Catalysis Communications. 2016, 86: 19–22.

28. Jianjun Chen, Elizabeth Dominguez Garcia, Erwan Oliviero, Laetitia Oliviero_*, Francoise Maugé. Effect of High Pressure Sulfidation on the Morphology and Reactivity of MoS2 Slabs on MoS²/Al²O³ Catalyst Prepared with Citric Acid. Journal of Catalysis. 2016, 339: 153-162.

29. Jianjun Chen, Elizabeth Dominguez Garcia, Laetitia Oliviero_*, Francoise Maugé. How the CO Molar Extinction Coefficient Influences the Quantification of Active Sites from CO Adsorption Followed by IR Spectroscopy A Case Study on MoS²/Al²O³ Catalysts Prepared with Citric Acid. Journal of Catalysis. 2015, 322: 77-82. (Featured Article of Editor-in-Chief)

30. Jianjun Chen_*, Laetitia Oliviero, Xavier Portier, Francoise Maugé. On the Morphology of MoS² Slabs on MoS²/Al²O³ Catalysts: the Influence of Mo Loading. RSC Advance. 2015, 5: 81038-81044.

31. Jianjun Chen, Francoise Maugé, Jaafar El Fallah, Laetitia Oliviero_*. IR Spectroscopy Evidence of MoS² Morphology Change by Citric Acid Addition on MoS²/Al²O³ Catalysts - A Step Forward to Differentiate the Reactivity of M-edge and S-edge. Journal of Catalysis. 2014, 320: 170-179.

32. Jianjun Chen, Vincent Labruyere, Francoise Maugé, Anne-Agathe Quoineaud, Antoine Hugon, Laetitia Oliviero_*. IR Spectroscopic Evidence for MoS² Morphology Change with Sulfidation Temperature on MoS²/Al²O³ Catalyst.Journal of Physical Chemistry C. 2014, 118: 30039-30044.