陈培榕

职称:副教授

性别:男

联系电话:

电子邮箱:chenpr@scut.edu.cn

 

招生专业

· 硕士招生专业:学术型硕士:083000|环境科学与工程;专业学位硕士:085700|资源与环境

· 博士招生专业:学术型博士:083000|环境科学与工程;工程博士:085700|资源与环境

工作经历

· 2017. 11至今,华南理工大学环境与能源学院,副教授

· 2013. 12-2017. 10,德国亚琛工业大学无机化学研究所/亚琛汽车催化系统研究中心,博士后,合作导师:Ulrich Simon教授

· 2013. 07-2013. 11,德国波鸿大学工业化学实验室,博士后,合作导师:Martin Muhler教授

教育经历

· 2010. 08-2013. 07,德国波鸿大学,工业化学,博士,导师:Martin Muhler教授

· 2007. 09-2010. 04,西北工业大学,环境工程,硕士,导师:吴耀国教授

· 2003. 09 -2007. 07,西北工业大学,环境科学,本科

社会及学术兼职

· 中国环境科学学会挥发性有机物污染防治专业委员会副秘书长、广东省环境科学学会大气环境与污染控制专业委员会副秘书长

· 广东省大气环境与污染控制重点实验室副主任、挥发性有机物污染治理技术与装备国家工程实验室骨干成员

· Chinese Chemical Letters青年编委,Catalysis Today客座编辑,Nature CommunicationsES&TACS CatalysisApplied Catalysis B: EnvironmentalJACS Au等知名期刊审稿专家

· 国家基金委、广东省科学技术厅/生态环境厅、浙江省基金委等结构项目评审专家

· 4届可持续能源与环境中的催化科学与技术国际研讨会分会场主席,第10届国际环境催化大会分会场主席,2019年和2020年《泰晤士高等教育世界大学排名》特邀评审专家

研究领域

· 空气污染物与温室气体控制(NH3-SCR/NSR脱硝、逃逸氨选择性氧化CO/HCs氧化、NOx/HCs被动吸附催化、甲烷催化燃烧/选择性氧化

· 非均相催化反应原位谱学表征(红外光谱、紫外可见光谱、阻抗谱及其耦合联用)

教学

授课课程:大气污染控制工程(全英&双语;本科)、大气污染控制工程设计(全英&双语;本科)、环境催化(全英;硕士)、大气污染控制进展讲座(博士)

指导学生:在读博士生5名、硕士生8名(已毕业博士生1名、硕士生4名),指导本科毕业论文14人,指导国家级/省级大学生创新创业训练计划等多项

科研项目

· 国家重点研发项目子课题煤转化过程中VOCs低温高效转化去除技术—关键预处理设备优化设计及系统智能化集成

· 国家自然科学基金面上项目(No.: 21976058强化活性位点动态限域迁移提升Cu-CHA分子筛低温NH3-SCR活性的分子机制

· 国家自然科学基金青年基金项目(No.: 21806039,基于氮掺杂界面调控的高还原性CuOx/NCNTs的构建及低温选择性催化氧化逃逸氨性能研究

· 广东省高层次人才计划(青年拔尖人才)

· 广东省自然科学基金面上项目(No.: 2023A1515011682孔道限域Pd-Ce双金属催化剂低温净化NOx性能与机理研究

· 广东省自然科学基金面上项目(No.: 2018A030313302,多孔钴锰复合氧化物的硬模板法制备及催化NO低温氧化活性研究

· 广东省科技计划项目(No.: 2020A1414010005纳米多孔材料在催化和传感器中的应用

· 广州市科技计划项目(No.: 202102080490),原子分散Pd/CHA分子筛催化剂的可控制备及低温净化NOx性能研究

· 华南理工大学兴华学者人才计划

· 韶关市引进创新创业人才团队项目(牵头人),工业有机废气催化净化成套装备及产业化

· 移动源污染排放控制技术国家工程实验室开放基金,基于新型小孔分子筛的冷启动NOx被动吸附净化材料与技术

· 企业委托研发项目,VOCs炭基吸附剂再生技术研发

· 企业委托研发项目,基于废旧催化剂回收材料的新型VOCs净化催化剂开发

· 企业委托研发项目,广州某汽车内饰件车间废气排放环境影响评价报告

· 企业委托研发项目,船舶尾气脱硝催化剂与装备研发

教改项目

· 2022年华南理工大学教研教改重点项目“双碳”背景下的《大气污染控制工程》模块化教学改革与实践

代表性论文(近5年)

W. Xiong, L. Liu, A. Guo, D. Chen, Y. Shan, M. Fu, J. Wu, D. Ye, Peirong Chen*. Economical and Sustainable Synthesis of Small-Pore Chabazite Catalysts for NOx Abatement by Recycling Organic Structure-Directing Agents. Environmental Science & Technology, 2023, 57, 655–665. IF 11.357

Y. Li, D. Chen, X. Xu, X. Wang, R. Kang, M. Fu, Y. Guo, Peirong Chen*, Y. Li, D. Ye. Cold-Start NOx Mitigation by Passive Adsorption Using Pd-Exchanged Zeolites: From Material Design to Mechanism Understanding and System Integration. Environmental Science & Technology, 2023, 57, 3467–3485.IF 11.357; invited review

L. Peng, A. Guo, D. Chen, P. Liu, B. Peng, M. Fu, D. Ye, Peirong Chen*. Ammonia Abatement via Selective Oxidation over Electron-Deficient Copper Catalysts. Environmental Science & Technology, 2022, 56, 14008–14018.IF 11.357

A. Guo,# K. Xie,# H. Lei, V. Rizzotto, L. Chen, M. Fu, Peirong Chen*, Y. Peng, D. Ye, U. Simon. Inhibition Effect of Phosphorus Poisoning on the Dynamics and Redox of Cu Active Sites in a Cu-SSZ-13 NH3-SCR Catalyst for NOx Reduction. Environmental Science & Technology, 2021, 55, 12618-12629. IF 11.357

D. Chen,# Y. Yan,# A. Guo, V. Rizzotto, H. Lei, Z, Qiao, H. Liang, M. Jablonska, X. Jiang, J. Jiang, R. Palkovits, Peirong Chen*, D. Ye, U. Simon. Mechanistic insights into the promotion of low-temperature NH3-SCR catalysis by copper auto-reduction in Cu-zeolites. Applied Catalysis B: Environmental, 2023, 322, 122118.IF 24.319

Peirong Chen*, A. Khetan, M. Jablonska, J. Simboeck, M. Muhler, R. Palkovits, H. Pitsch, U. Simon*. Local dynamics of copper active sites in zeolite catalysts for selective catalytic reduction of NOx with NH3. Applied Catalysis B: Environmental, 2018, 237, 263–272. IF 24.319

D. Chen, H. Lei, W. Xiong, Y. Li, X. Ji, J. Yang, B. Peng, M. Fu, Peirong Chen*, D. Ye. Unravelling Phosphorus-Induced Deactivation of Pd-SSZ-13 for Passive NOx Adsorption and CO Oxidation. ACS Catalysis, 2021, 11, 13891–13901.IF 13.7

J. Wang, Z. Wu, Q. Niu, L. Liu, L. Yang, M. Fu, D. Ye, Peirong Chen*. Highly efficient adsorptive removal of toluene using silicon-modified activated carbon with improved fire resistance. Journal of Hazardous Materials, 2021, 415, 125753.IF 14.224

R. Ou, C. Chang, Y. Zeng, X. Zhang, M. Fu, L. Fan, Peirong Chen*, D. Ye. Emission characteristics and ozone formation potentials of VOCs from ultra-low-emission waterborne automotive painting. Chemosphere, 2022, 305, 135469.IF 8.943

10 V. Rizzotto, D. Chen, B.M. Tabak, J.-Y. Yang, D. Ye, U. Simon, Peirong Chen*. Spectroscopic identification and catalytic relevance of NH4+ intermediates in selective NOx reduction over Cu-SSZ-13 zeolites. Chemosphere, 2020, 250, 126272.IF 8.943

11 Z. Yang, L. Peng, L. Yang, M. Fu, D. Ye, Peirong Chen*. Low-temperature NH3 abatement via selective oxidation over a supported copper catalyst with high Cu+ abundance. Journal of Environmental Sciences, 2023, DOI: 10.1016/j.jes.2023.05.047.IF 6.796

12 Peirong Chen*, V. Rizzotto, A. Khetan, K. Xie, R. Moos, H. Pitsch, D. Ye, U. Simon*. Mechanistic Understanding of Cu-CHA Catalyst as Sensor for Direct NH3-SCR Monitoring: The Role of Cu Mobility. ACS Applied Materials & Interfaces, 2019, 11, 8097–8105.IF 10.383

13 L. Liu, W. Xiong, M. Fu, J. Wu, Z. Li*, D. Ye, Peirong Chen*. Efficient NOx abatement by passive adsorption over a Pd-SAPO-34 catalyst prepared by solid-state ion exchange. Chinese Chemical Letters, 2023, accepted.IF 8.455

14 A. Guo, H. Liu, Y. Li, Y. Luo, D. Ye, J. Jiang*, Peirong Chen*. Recent progress in novel zeolite catalysts for selective catalytic reduction of nitrogen oxides. Catalysis Today, 2023, 422, 114212. IF 6.562; invited review

15 X. Ji, D. Chen, L. Peng, F. Frison, C.D. Valle, C. Tubaro, M. Zecca, P. Centomo*, D. Ye, Peirong Chen*. Sustainable direct H2O2 synthesis over Pd catalyst supported on mesoporous carbon: The effect of surface nitrogen functionality. Catalysis Today, 2021, 376, 1-8.IF 6.562

其他论文(回国之前)

16 Peirong Chen#, A. Khetan#, F. Yang, V. Migunov, P. Weide, K. Kaehler, Wei Xia, J. Mayer, H. Pitsch, U. Simon*, M. Muhler*. Experimental and theoretical understanding of nitrogen doping-induced strong metal-support interactions in Pd/TiO2 catalysts for nitrobenzene hydrogenation. ACS Catalysis, 2017, 7, 1197–1206.IF 13.7

17 Peirong Chen*, M. Jablonska, P. Weide, T. Caumanns, T. Weirich, M. Muhler, R. Moos, R. Palkovits, U. Simon*. Formation and effect of NH4+ intermediates in NH3-SCR over Fe-ZSM-5 zeolite catalysts. ACS Catalysis, 2016, 6, 7696–7700.IF 13.7

18 Peirong Chen, F. Yang, A. Kostka, W. Xia*. Interaction of cobalt nanoparticles with oxygen- and nitrogen-functionalized carbon nanotubes and impact on nitrobenzene hydrogenation catalysis. ACS Catalysis, 2014, 4, 1478-1486.IF 13.7

19 Peirong Chen, L. Chew, W. Xia*. The influence of the residual growth catalyst in functionalized carbon nanotubes on the supported Pt nanoparticles for selective olefin hydrogenation. Journal of Catalysis, 2013, 307, 84-93.IF 8.047

20 Peirong Chen, L. Chew, A. Kostka, K. Xie, M. Muhler, W. Xia*. Purified oxygen- and nitrogen-modified multi-walled carbon nanotubes as metal-free catalysts for selective olefin hydrogenation. Journal of Energy Chemistry, 2013, 22, 312-320.IF 13.599

21 Peirong Chen*, J. Simböck, S. Schönebaum, D. Rauch, R. Palkovits, R. Moos, U. Simon*. Monitoring the storage and conversion of NH3 within Cu-ZSM-5 and Cu-SAPO-34 catalysts for NH3-SCR by simultaneous impedance and DRIFT spectroscopy. Sensors and Actuators B: Chemical, 2016, 236, 1075-1082.IF 9.221

22 Peirong Chen*, Philipp Weide, S. Schönebaum, D. Rauch, T. Simons, M. Muhler, R. Moos, U. Simon*. The effect of Cu and Fe cations on NH3-supported proton transport in DeNOx-SCR zeolite catalysts. Catalysis Science & Technology, 2016, 6, 3362-3366. IF 6.177

23 Peirong Chen, L. Chew, A. Kostka, M. Muhler, W. Xia*. The structural and electronic promoting effect of NCNTs on supported Pd nanoparticles for selective olefin hydrogenation. Catalysis Science & Technology, 2013, 3, 1964-1971. IF 6.177

24 Peirong Chen*, U. Simon*. In Situ Spectroscopic Studies of Proton Transport in Zeolite Catalysts for NH3-SCR. Catalysts, 2016, 6, 204. IF 4.501

25 Peirong Chen*, R. Moos, U. Simon. Metal Loading Affects the Proton Transport Properties and the Reaction Monitoring Performance of Fe-ZSM-5 and Cu-ZSM-5 in NH3-SCR. Journal of Physical Chemistry C, 2016, 120, 25361-25370. IF 4.177

*通讯作者,#共同第一作者

  

 发明专利

1 一种低温去除柴油车尾气氮氧化物的小孔分子筛负载双金属材料及其制备方法与应用,陈培榕, 陈冬冬, 付名利, 叶代启. 中国专利,专利号:ZL 202010653519.5 (已授权)

2 一种全硅ZSM-5分子筛负载Pd及其制备方法和应用,陈培榕, 陈冬冬, 付名利, 叶代启. 中国专利,专利号:202210222829.0(已授权)

3 一种用于制造多级孔分子筛的介孔模板剂及其合成方法, 陈培榕,梁高洲,付名利,叶代启. 中国专利,申请号:202210493461.1.(已授权)

4 一种循环利用母液水热合成SSZ-13分子筛的方法, 陈培榕,熊梧琬,付名利,叶代启. 中国专利,申请号:202110130506.4.

5 一种一锅法制备的小孔分子筛负载贵金属材料的制备方法及其应用. 陈培榕, 熊梧琬, 付名利, 叶代启. 中国专利,申请号:202010746570.0.