09/2000-06/2004           复旦大学 环境科学与工程系 学士

09/2004-06/2007           清华大学 环境科学与工程系 硕士

10/2011-12/2014           法国卡昂大学 催化与化学光谱实验室 博士

10/2016-至今  皇冠最新官网，副研究员

Nature Catalysis, Angewandte Chemie, Applied Catalysis B: Environmental, ACS catalysis 等期刊审稿人。

烟气多污染物协同控制；

CO₂捕集和资源化利用；

1. 主持/参与主要项目

1) 生物质锅炉烟气多污染物短流程协同控制技术研究，国家重点研发计划课题，起止日期202210-202603，课题复负责人。

2) 工业烟气除尘脱硝一体化滤料开发及多污染物协同脱除机理研究，国家自然科学基金委面上项目，起止日期20210101～20241231，项目负责人。

3) 重点行业多介质碳污排放协同控源策略研究，中国工程院战略研究与咨询项目，起止日期202210-202409，核心/主要研究人员。

4) 氮氧化物和二噁英低温协同脱除催化剂研制和反应机理研究，国家自然科学基金委面上项目，起止日期20190101～20221231，项目负责人。

5) CoMo基催化剂MoS2的形貌调控对活性中心的形成和性能的影响研究，国家自然科学基金委青年项目，起止日期20170101～20191231，项目负责人。

6) 玻璃窑烟气SCR脱硝技术适应性研究，中建材蚌埠玻璃工业设计研究院有限公司，起止日期20170701～20200630，课题负责人。

7) 基于碱性位控制策略的新型抗硫LT-SCR催化剂开发，国家重点研发计划课题，起止日期20160701～20190630， 课题负责人。

8) 清华大学—佛山先进制造研究院专项，佛山市人民政府，起止日期：20180301～2023022，课题负责人。

9) 重点行业NOx管控现状及深度减排策略研究，生态环境部大气治理攻关专项(总理基金项目)，起止日期：20201201～20210331，课题负责人。

2. 成果转化

1) 【成果编号:2021170】，一种三维分级陶瓷催化滤管除尘脱硝一体化技术，普通许可浙江致远环境科技有限公司实施，许可期限10年，许可范围限中国境内

2) 【成果编号:2021152】，一种挥发性有机物氧化催化剂及其制备方法，普通许可江苏中创清源科技有限公司实施，许可期限3年，许可范围限中国境内

1. 江西省科技进步二等奖（2022）

2. 江苏省清华大学校友会杰出贡献奖（2021）

3. 国家科技进步一等奖（2020）

4. 中国环境保护协会环境科技进步特等奖（2019年）

5. 第47届日内瓦国际发明展金奖（2019年）

6. 清华大学先进集体“大气复合污染治理团队”（2019年）

7. 中国石油和化学工业联合会科技进步一等奖（2017年）

8. 盐城市“515” 领军人才（2017年）

9. 清华大学优秀毕业生（2007年）

1. 近5年代表论文(^*通讯作者，^#共同一作)

（1） 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, 2021, 60, 26747–26754. （热点论文）

（2） Jin Yuan^#, Jianjun Chen^#, Zhen Wang, Rongqiang Yin, Xiao Zhu, Kun Yang, Yue Peng, and Junhua Li^*. Identification of Active Sites over Metal-Free Carbon Catalysts for Flue Gas Desulfurization. Environmental Science & Technology, 2023

（3） Jin Yuan, Zhen Wang, Jun Liu, Junhua Li, Jianjun Chen^*. Potential risk of NH₃ slip arisen from catalytic unactive site in selective catalytic reduction of NOx with metal-free carbon catalysts. Environmental Science & Technology, 2023, 57(1), 606–614.

（4） Hao Liu, Shan Yang, Guimin Wang, Haiyan Liu, Yue Peng, Chuanzhi Sun, Junhua Li*, Jianjun Chen^*. Strong Electronic Orbit Coupling between Cobalt and Single-atom Praseodymium for Boosted Nitrous Oxide Decomposition on Co₃O₄ Catalyst. Environmental Science & Technology, 2022, 56, 16325-16335.

（5） Gongda Chen, Jianjun Chen^*, Xiaoping Chen, Rongqiang Yin, Kezhi Li, and Junhua Li. Monolith or powder: unproper sample pretreatment may mislead the understanding of industrial V₂O₅-WO₃/TiO₂ catalysts operated in stationary resources. Environmental Science & Technology, 2022, 56, 16394−16399.

（6） Jianqiang Shi, Jianjun Chen^*, Shangchao Xiong, Jinxing Mi, Hao Liu, Zhen Wang, Haiyan Liu, Jiancheng Wang, Junhua Li. Structure-Directing Role of Support on Hg⁰ Oxidation over V₂O₅/ TiO₂ Catalyst Revealed for NOx and Hg⁰ Simultaneous Control in an SCR Reactor. Environmental Science & Technology, 2022, 56, 9702−9711.

（7） Shangchao Xiong, Jianjun Chen^*, Hao Liu, Xiaoping Chen, Wenzhe Si, Zhengjun Gong, Yue Peng, and Junhua Li. Like Cures like: Detoxification Effect between Alkali Metals and Sulfur over the V₂O5/TiO₂ deNOx Catalyst. Environmental Science & Technology, 2022, 56, 3739−3747.

（8） Hao Liu, Jianjun Chen^*, Ya Wang, Rongqiang Yin, Wenhao Yang, Guimin Wang, Wenzhe Si, Yue Peng, and Junhua Li. Interaction Mechanism for Simultaneous Elimination of Nitrogen Oxides and Toluene over the Bifunctional CeO₂−TiO₂ Mixed Oxide Catalyst. Environmental Science & Technology, 2022. 56, 4467−4476.

（9） 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, 2021, 55, 11368-11374. （封面论文）

（10） 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.

（11） 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, 269, 118797.

（12） Shangchao Xiong, Jianjun Chen^*, Nan Huang, Tao Yana, Yue Peng, Junhua Li*. The poisoning mechanism of gaseous HCl on low-temperature SCR catalysts: The MnOx−CeO₂ as an example. Applied Catalysis B: Environmental, 2020, 267, 118668.

（13） Rongqiang Yin, Jianjun Chen^*, Jinxing Mi, Haiyan Liu, Tao Yan, Liang Shan, Junyu Lang, Junhua Li. Breaking the activity-selectivity trade-off for nitric oxide and chlorobenzene simultaneously catalytic elimination via FeVO_4­-Fe₂O₃ interfacial charge transfer. ACS Catalysis, 2022, 12, 3797−3806.

（14） Jin Yuan, JinXing Mi, Rongqiang Yin, Tao Yan, Hao Liu, Xiaoping Chen, Jun Liu, Wenzhe Si, Yue Peng, Jianjun Chen^*, and Junhua Li^*. Identification of Intrinsic Active Sites for the Selective Catalytic Reduction of Nitric Oxide on Metal-Free Carbon Catalysts via Selective Passivation. ACS Catalysis, 2022, 12, 1024−1030.

（15） 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 NOx by NH₃. ACS Catalysis, 2020, 10, 2747-2753.

（16） Liang Shan^#, Rongqiang Yin^#, Jin Xiao, Hui Wang, Lei M, Junhua Li, Jianjun Chen^*. Simultaneous removal of NOx and dust with integrated catalytic filter: Interactions between NH₃-SCR and filtration processes. Chemical Engineering Journal, 2023, 438, 141466.

（17） Qin Wu, Chi Fan, Ya Wang, Xiaoping Chen, Guimin Wang, Zhengxing Qin, Svetlana Mintova, Junhua Li, Jianjun Chen^*. Direct incorporating small amount of Ce (III) in Cu-SAPO-18 catalysts for enhanced low-temperature NH₃-SCR activity: Influence on Cu distribution and Si coordination. Chemical Engineering Journal, 2022, 435, 134890.

（18） 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 NOx. Chemical Engineering Journal, 2021, 423, 130228.

（19） 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, 2020, 387, 124090.

（20） Jianjun Chen^*, Weitao Zhao, Qin Wua, Jinxing Mi, Xiuyun Wang, Lei Ma, Lilong Jiang^*, Chaktong Au, Junhua Li. Effects of anaerobic SO₂treatment on nano-CeO₂ of different morphologies for selective catalytic reduction of NOx with NH₃. Chemical Engineering Journal, 2020, 382, 122910.

（21） 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, 391, 123473.

（22） Bing Li, Qilei Yang, Yue Peng, Jianjun Chen^*, Lei Deng, Dong Wang, Xiaowei Hong, Junhua Li*. Enhanced Low-Temperature Activity of LaMnO₃for Toluene Oxidation: The Effect of Treatment with an Acidic KMnO₄. Chemical Engineering Journal. 2019, 366: 92-99.

（23） 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.（ESI高被引论文）

（24） Jianjun Chen^*, Qin Wu, Jinxing Mi, Chi Fan, Zhen Wang, Xiaoping Chen, Guimin Wang, Zhoulan Huang, Junhua Li. Efficient and Simple Strategy to Obtain Ordered Mesoporous Carbons with Abundant Structural Base N Sites toward CO₂ Selective Capture and Catalytic Conversion. ACS Sustainable Chemistry & Engineering, 2022. 2022, 10, 5175−5182 (封面文章)

（25） 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, 2023, 8, 4-6.  

2. 近5年授权专利

（1) 陈建军，尹荣强，单良，李俊华，涂覆型催化剂组合物和催化滤管及其制备方法，ZL202110710606.4；WO 2022/267521 A1.

（2) 陈建军，单良，李俊华，尹荣强，徐杰，用于除尘脱硝一体化设备的陶瓷管，ZL202030127393.9

（3) 陈建军，高向平，李俊华，刘海岩，赵新红，一种AEL结构CeAPO-11分子筛及制备方法, ZL201810572586.7

（4) 陈建军，单良，李俊华，王慧，一种脱硝脱汞整体式滤料的制备方法，ZL201810666836.3

（5) 陈建军，于双江，李俊华，单良，一种中低温脱硝协同脱汞催化剂制备工艺，ZL201810915644.1

（6) 陈建军，单良，李俊华，于双江，吴芹，刘琦，王世豪，一种具有抗静电脱硝功能的玻璃纤维覆膜滤料的制备方法，ZL201811165691.5

（7) 陈建军，丁云，李俊华，邓磊，一种钒掺杂伞状锰铈复合氧化物催化剂的制备方法及应用，ZL201811317484.7

（8) 陈建军，张亚青，李俊华，高向平，苗雪，一种以介孔氧化铈为载体的中低温脱硝催化剂及制备方法， ZL 20181 0659661.3

（9) 陈建军，刘小峰，李俊华，李杰，一种SCR脱硝催化剂全尺寸性能评价系统， ZL 201821961194.1

（10) 陈建军，周正，李俊华，郦杲辉，祁德祥，一种中低温宽负荷SCR脱硝装置及脱硝方法，ZL 201810499433.4