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杜学森

职称:副教授

邮箱:xuesendu@cqu.edu.cn

主要从事:​承担国家自然基金、重庆市技术创新与应用示范项目、重庆市基础及前沿应用研究项目等各类国家级、省部级、重点企业科研项目10余项
  • 个人简介
  • 教育经历
  • 研究方向
  • 本科生及研究生培养
  • 科研项目
  • 代表性论文

博士/副教授,博士生导师。本科毕业于浙江大学,2008年进入浙江大学能源清洁利用国家重点实验室攻博,2012-2013年受国家公派赴美国University of Notre Dame联合培养,2014年获得博士学位。2014年6月进入重庆大学工作。承担国家自然基金、重庆市技术创新与应用示范项目、重庆市基础及前沿应用研究项目等各类国家级、省部级、重点企业科研项目10余项,已在Appl. Catal. B: Environ.、Catal. Sci. & Tech.、J. Hazard. Mat.等国际高水平期刊上发表SCI检索论文40余篇,其中3篇为ESI高被引论文,论文被引用1100余次,申请/获权发明专利6项。项目负责人曾在国内外学术会议上做邀请报告2次、口头报告10余次,受邀担任国内外学术会议分会场主持人2次,担任包括ACS Catal.、Environ. Sci. & Technol.等国内外30余个期刊审稿人、国家自然科学基金评审人、波兰国家科学基金评审人、重庆市工业烟气污染排放标准评审人等,曾获教育部学术新人奖、高廷耀环保基金会全国优秀青年博士奖等学术奖项,参与的相关研究结果曾获重庆市科学技术三等奖。

奖励及荣誉

(1)  教育部博士研究生学术新人奖;

(2)  高廷耀环保基金会全国优秀青年博士奖;

(3)  南方电网科技进步二等奖;

(4)  浙江大学争创全国百篇优秀博士论文资助;

(5)  浙江大学优秀研究生一等荣誉4次(每个学年);

(6)  博士研究生国家奖学金、潍柴动力一等奖学金、岑可法研究生一等奖学金等;


(1)  2012.8–2013.8, University of Notre Dame, 化学工程, 联合培养博士

(2)  2008.9–2014.6, 浙江大学, 能源与环境工程, 博士

(3)  2004.9–2008.6, 浙江大学, 能源与环境系统工程


(1)  能源与环境催化相关课题;

(2)  雾霾前驱体(NO、VOCs)的高效脱除技术(NOx removal,VOCs oxidation);

(3)  新型水煤气反应制氢及催化过程研究(Water Gas Shift,catalysis);

(4)  非常规燃烧烟气污染控制技术(Pollutant control from unconventional flue gas);

(5)  氢能存储及锂电池相关课题研究(H2 energy and Li ion battery);


本科生培养及研究生招生

主讲本科《燃烧学》、《能源与可持续发展》、《锅炉原理》、《节能减排前沿》等课程。并为对科研感兴趣的同学提供良好的科研体验机会,如SRTP、节能减排比赛、国创等。

招收能源与环境交叉领域研究生,实验室条件完善、经费充裕,与国内外大学,如浙江大学、美国圣母大学、利物浦大学、丹麦科技大学、米兰理工大学、塞尔维亚贝尔格莱德大学等国外著名高校保持良好的合作交流,鼓励研究生进行国际交流。同时,课题组与国内多个重点企业,如国电投远达环保公司、华电电科院等保持密切的合作关系,这为研究成果的快速推广提供了便利。


承担课题

课题组近三年已完成或正承担国家级、省部级、重点企业项目十余项,部分项目如下。

(1)    国家自然基金青年项目,2016-2018,负责人

(2)    重庆市技术创新与应用示范项目,2018-2020,负责人;

(3)    重庆市基础及前沿应用研究项目,2016-2018,负责人;

(4)    中央高校基本科研业务费专项(教师科研创新能力提升专项),2018-2020,负责人;

(5)    国电投远达企业催化剂项目横向课题,2016-2018,负责人

(6)    中国博士后基金一等资助,2014-2017,负责人

(7)    重庆市博士后科研基金,2015-2017,负责人

(8)    国电投远达企业重金属项目横向课题,2014-2016,负责人


已发表文章(摘录)

1.       Wang, X.; Du, X.*; Liu, S.; Yang, G.; Chen, Y.; Zhang, L.; Tu, X., Understanding the deposition and reaction mechanism of ammonium bisulfate on a vanadia SCR catalyst: A combined DFT and experimental study. Applied Catalysis B: Environmental 2020, 260, 118168. (IF=16.68,ESI高被引)

2.       Yang, G. P.; Du, X. S. *; Ran, J. Y.*; Wang, X. M.; Chen, Y. R.; Zhang, L.; Rac, V.; Rakic, V.; Crittenden, J., Irregular influence of alkali metals on Cu-SAPO-34 catalyst for selective catalytic reduction of NOx with ammonia. Journal of Hazardous Materials 2020, 387, 122007. (IF=9.04)

3.       Xuesen Du* ; Jingyu Xue; Xiangmin Wang; Yanrong Chen; Jingyu Ran; Li Zhang, Oxidation of Sulfur Dioxide over V2O5/TiO2 Catalyst with Low Vanadium Loading: A Theoretical Study, Journal of Physical Chemistry C 2018, 122(8), 4517-4523. (SCI/EI, IF=4.5,ESI高被引)

4.       Wang, X.; Du, X.*; Zhang, L.; Chen, Y.; Yang, G.; Ran, J., Promotion of NH4HSO4 decomposition in NO/NO2 contained atmosphere at low temperature over V2O5-WO3/TiO2 catalyst for NO reduction. Applied Catalysis A: General 2018, 559, 112-121. (ESI高被引)

5.       Xue, Z. G.; Du, X. S.; Rac, V.; Rakic, V.; Wang, X. M.; Chen, Y. R.; Xiang, J. Y.; Song, L. Q., Partial Oxidation of NO by H2O2 and afterward Reduction by NH3-Selective Catalytic Reduction: An Efficient Method for NO Removal. Industrial & Engineering Chemistry Research 2020, 59 (20), 9393-9397.

6.       Wan, Y. Y.; Yang, G. P.; Xiang, J. Y.; Shen, X. Q.; Yang, D. F.; Chen, Y. R.; Rac, V.; Rakic, V.; Du, X. S., Promoting effects of water on the NH3-SCR reaction over Cu-SAPO-34 catalysts: transient and permanent influences on Cu species. Dalton Transactions 2020, 49 (3), 764-773.

7.       Wang, X.; Du, X.*; Yang, G.; Xue, J.; Chen, Y.; Zhang, L., Chemisorption of NO2 on V-Based SCR Catalysts: A Fundamental Study toward the Mechanism of “Fast SCR” Reaction. The Journal of Physical Chemistry C 2019, 123 (33), 20451-20458.

8.       Xiang, J.; Du, X.*; Wan, Y.; Chen, Y.; Ran, J.; Zhang, L., Alkali-driven active site shift of fast SCR with NH3 on V2O5–WO3/TiO2 catalyst via a novel Eley–Rideal mechanism. Catalysis Science & Technology 2019, 9 (21), 6085-6091.

9.       Wang, X.; Du, X.*; Xue, J.; Yang, G.; Chen, Y.; Zhang, L., New insights into the N2O formation mechanism during selective catalytic reduction of NOx with NH3 over V-based catalyst. Catalysis Today 2019.

10.    Wang, X.; Du, X. *; Zhang, L.; Yang, G.; Chen, Y.; Ran, J., Simultaneous Fast Decomposition of NH4HSO4 and Efficient NOx Removal by NO2 Addition: An Option for NOx Removal in H2O/SO2-Contained Flue Gas at a Low Temperature. Energy & Fuels 2018, 32 (6), 6990-6994.

11.    Guangpeng Yang ; Jingyu Ran; Xuesen Du(*) ; Xiangmin Wang; Yanrong Chen; Li Zhang, Different copper species as active sites for NH3-SCR reaction over Cu-SAPO-34 catalyst and reaction pathways: A periodic DFT study , Microporous and Mesoporous Materials, 2018, 266, 223-231.

12.    Du, X. *; Yang, G.; Chen, Y.; Ran, J.; Zhang, L., The different poisoning behaviors of various alkali metal containing compounds on SCR catalyst. Applied Surface Science 2017, 392, 162-168. (SCI/EI, IF=3.4)

13.    Du, X.*; Tang, J.; Chen, Y.; Yang, X.; Ran, J.; Zhang, L. Adsorption of As4O6 from flue gas by zeolites: Influence of pore structure and Al substitution. Micropor Mesopor Mater 2017, 243, 22-27. (SCI/EI, IF=3.6)

14.    Du, X.*; Wang, X.; Chen, Y.; Gao, X.; Zhang, L., Supported metal sulfates on Ce–TiOx as catalysts for NH3–SCR of NO: High resistances to SO2 and potassium. Journal of Industrial and Engineering Chemistry, 2016, 36, 271-278. (SCI/EI, IF=3.7)

15.    Du, X. S. *; Tang, J. Y.; Gao, X.; Chen, Y. R.; Ran, J. Y.; Zhang, L., Molecular Transformations of Arsenic Species in the Flue Gas of Typical Power Plants: A Density Functional Theory Study. Eneryg & Fuels 2016, 30 (5), 4209-4214. (SCI/EI, IF=2.8)

16.    Niu, J.; Du, X.*; Ran, J.; Wang, R., Dry (CO2) reforming of methane over Pt catalysts studied by DFT and kinetic modeling. Applied Surface Science, 2016, 376, 79-90. (SCI/EI, IF=3.4)

17.    Ji, P. D.; Gao, X.; Du, X. S.; Zheng, C. H.; Luo, Z. Y.; Cen, K. F., Relationship between the molecular structure of V2O5/TiO2 catalysts and the reactivity of SO2 oxidation. Catalysis Science & Technology 2016, 6 (4), 1187-1194. (SCI/EI, IF=6.9)

18.    Niu, J. T.; Ran, J. Y.; Li, L. Y.; Du, X. S.; Wang, R. R.; Ran, M. C., Effects of trapezoidal bluff bodies on blow out limit of methane/air combustion in a micro-channel. Applied Thermal Engineering 2016, 95, 454-461. (SCI/EI, IF=3.4)

19.    Du Xuesen,Gao Xiang,Qiu Kunzan,Luo Zhongyang,Cen Kefa,The reaction of poisonous alkali oxides with vanadia SCR catalyst and the afterward influence: A DFT and experimental study,Journal of Physical Chemistry C,2015,119(4):1905-1912. (SCI/EI, IF=4.5)

20.    Du, Xuesen,Gao, Xiang,Hu, Wenshuo,Yu, Jinpin,Luo, Zhongyang,Cen, Kefa,Catalyst Design Based on DFT Calculations: Metal Oxide Catalysts for Gas Phase NO Reduction,Journal of Physical Chemistry C,2014,118(25):13617-13622. (SCI/EI, IF=4.5)

21.    Du, Xuesen,Gao, Xiang,Cui, Liwen,Zheng, Zhizhan,Ji, Peidong,Luo, Zhongyang,Cen, Ke-fa,Experimental and theoretical studies on the influence of water vapor on the performance of a Ce-Cu-Ti oxide SCR catalyst,Applied Surface Science,2013,270:370-376. (SCI/EI, IF=3.7)

22.    Du, Xue-sen,Gao, Xiang,Cui, Li-wen,Fu, Yin-cheng,Luo, Zhong-yang,Cen, Ke-fa,Investigation of the effect of Cu addition on the SO2-resistance of a Ce-Ti oxide catalyst for selective catalytic reduction of NO with NH3,Fuel,2012,92(1):49-55. (SCI/EI, IF=4.6)

23.    Du, Xuesen,Gao, Xiang,Qu, Ruiyang,Ji, Peidong,Luo, Zhongyang,Cen, Ke-fa,The Influence of Alkali Metals on the Ce-Ti Mixed Oxide Catalyst for the Selective Catalytic Reduction of NOx,ChemCatChem,2012,4(12):2075-2081. (SCI/EI, IF=4.8)

24.    Du, Xuesen,Gao, Xiang,Fu, Yincheng,Gao, Feng,Luo, Zhongyang,Cen, Kefa,The co-effect of Sb and Nb on the SCR performance of the V2O5/TiO2 catalyst,Journal of Colloid and Interface Science,2012,368:406-412. (SCI/EI, IF=4.2)

25.    Gao, Xiang,Du, Xue-sen,Fu, Yin-cheng,Mao, Jian-hong,Luo, Zhong-yang,Ni, Ming-jiang,Cen, Ke-fa,Theoretical and experimental study on the deactivation of V2O5 based catalyst by lead for selective catalytic reduction of nitric oxides,Catalysis Today,2011,175(1):625-630. (SCI/EI, IF=4.6)

26.    Gao, Xiang,Du, Xue-sen,Cui, Li-wen,Fu, Yin-cheng,Luo, Zhong-yang,Cen, Ke-fa,A Ce-Cu-Ti oxide catalyst for the selective catalytic reduction of NO with NH3,Catalysis Communications,2010,12(4):255-258. (SCI/EI, IF=3.3)

27.    Gao, Xiang,Du, Xue-sen,Jiang, Ye,Zhang, Yang,Luo, Zhong-yang,Cen, Ke-fa,A DFT study on the behavior of NO2 in the selective catalytic reduction of nitric oxides with ammonia on a V2O5 catalyst surface,Journal of Molecular Catalysis A: Chemical,2010,317(1-2):46-53. (SCI/EI, IF=3.8)

28.    Qi, W. J.; Ran, J. Y.; Wang, R. R.; Du, X. S.; Shi, J.; Ran, M. C. Kinetic mechanism of effects of hydrogen addition on methane catalytic combustion over Pt(111) surface: A DFT study with cluster modeling. Comp Mater Sci 2016, 111, 430-442. (SCI/EI, IF=4.6)

29.    Gao, Xiang,Liu, Shaojun,Zhang, Yang,Du, Xuesen,Luo, Zhongyang,Cen, Kefa,Low temperature selective catalytic reduction of NO and NO2 with NH3 over activated carbon-supported vanadium oxide catalyst,Catalysis Today,2011,175(1):164-170. (SCI/EI, IF=4.6)

学术会议交流(摘录)

(1)    杜学森, 基金进展交流报告-基于多尺度分子模拟的脱硝催化剂抗中毒机理研究,2017年中国工程热物理学会燃烧学学术会议暨基金燃烧项目进展交流会, 钟山宾馆, 2017.10.13-2017.10.15

(2)    Xuesen Du ; Xiang Gao ,An atomic determination on the alkali metals poisoning of a V2O5 /TiO2 catalyst for SCR of NOx, 7th International Conference on Environmental Catalysis, 2012.09.02-2012.09.06

发明专利(摘录)

(1)    杜学森; 王向民; 陈艳容; 杨广鹏; 杨仲卿; 冉景煜; 张力,一种基于Fast SCR反应的中低温含硫烟气高效脱硝装置及方法, 2017.6.21, 中国, CN201710475256.1

(2)    杜学森; 王向民; 陈艳容; 向劲瑶; 杨仲卿; 蒲舸; 冉景煜; 张力,一种硫中毒SCR脱硝催化剂原位再生方法及装置, 2017.7.6, 中国, CN201710545601.4

(3)    杜学森; 杨政; 陈艳容; 杨仲卿; 蒲舸; 冉景煜; 张力,一种具有高抗碱金属中毒的SCR脱硝催化剂及制备方法, 2016.6.17, 中国, CN201610437405.0

(4)    杜学森; 杨鑫; 资栋梁; 欧金树; 陈艳容; 杨仲卿; 冉景煜; 蒲舸,一种基于低温等离子体技术的厨房油烟净化装置及系统, 2017.1.13, 中国, CN201710026037.5