詹望成

詹望成

詹望成,男,漢族,1981年3月生,研究生,工學博士,教授,中共黨員。

現任華東理工大學化學與分子工程學院黨委副書記、紀委書記。

基本介紹

  • 中文名:詹望成
  • 民族:漢族
  • 出生日期:1981年3月
  • 畢業院校:華東理工大學
人物經歷,社會任職,研究方向,主要成就,所獲榮譽,代表論文,

人物經歷

1998/09-2002/07,華東理工大學,學士;
2002/09-2008/04,華東理工大學,博士;
2008/01-2010/08,華東理工大學,工業催化研究所,講師;
2010/09-2017/08,華東理工大學,工業催化研究所,副教授;
2015/06-2016/06,美國橡樹嶺國家實驗室,化學部,訪問學者;
2017/09-至今, 華東理工大學,工業催化研究所,教授

社會任職

華東理工大學工業催化研究所副所長,中國環境科學學會揮發性有機物污染防治專業委員會常委委員,《 Chinese Journal of Catalysis》青年編委。

研究方向

1.工業源排放的揮發性有機物催化燃燒淨化技術
2.氮氧化物催化還原淨化技術
3.傳統捲菸降焦減害和新型菸草製品的研究(工程碩士)
主要研究領域為大氣污染控制化學,圍繞污染物的活化和控制轉化,開展了系統的套用基礎研究:(1)圍繞VOCs污染物排放控制技術,充分利用稀土特性,開發了高活性的Ru催化劑,實現分子穩定性極高的低碳烷烴揮發性有機物的低溫、高效轉化。同時發展了具有普適性的高熱穩定性貴金屬納米催化劑的控制製備方法,突破貴金屬催化劑在污染物轉化初活性和高溫穩定性之間的相互制約關係,在工業上實現了低碳烷烴在低溫下的高效淨化;(2)圍繞氮氧化物(NOx)排放控制技術,最佳化催化劑氧化還原性能和表面酸性的匹配,開發了低溫高活性的Mn基催化劑,以及具有寬活性溫度視窗的分子篩催化劑,實現NOx污染物的低溫、高選擇性轉化。

主要成就

作為負責人先後承擔了國家重點研發計畫項目子課題、國家863課題、國家自然科學基金優青和面上項目、上海市自然科學基金等項目。近年來發表84篇SCI論文,論文總引2100餘次。近五年以第一或通訊作者在Nat. Commun.J. Am. Chem. Soc.Angew. Chem. Int. Ed.Environ. Sci. Technol.Appl. Catal. BACS Catal.等雜誌上發表SCI論文38篇,其中4篇ESI高被引論文。獲授權發明專利8項。

所獲榮譽

2019 國家自然科學基金委優青項目資助
2017上海市“浦江人才”計畫
2014 上海市技術發明一等獎(第七完成人)
2008 上海市“晨光學者”

代表論文

代表性科研論文:
  1. X.-W. Yang, Q. Li, E.-J. Lu, Z.-Q. Wang, X.-Q. Gong, Z.-Y. Yu, Y. Guo, L. Wang, Y.-L. Guo,W.-C. Zhan*, J.-S. Zhang*, S. Dai*. Taming the stability of Pd active phases through a compartmentalizing strategy toward nanostructured catalyst supports,Nat. Commun.,2019
  2. W.-C. Zhan, Y. Shu, Y.-J. Sheng, H.-Y. Zhu, Y.-L. Guo, L. Wang, Y. Guo, J.-S. Zhang*, G.-Z. Lu, S. Dai*. Surfactant-assisted stabilization of Au colloids on solids for heterogeneous catalysis,Angew. Chem. Int. Ed.,2017,
  3. W.-C. Zhan, J.-L. Wang, H.-F. Wang, J.-S. Zhang, X.-F. Liu, P.-F. Zhang, M.-F. Chi, Y.-L. Guo, Y. Guo, G.-Z. Lu, S.-H. Sun, S. Dai*, H.-Y. Zhu*. Crystal structural effect of AuCu alloy nanoparticles on catalytic CO oxidation,J. Am. Chem. Soc.,2017,
  4. W.-C. Zhan, Q. He, X.-F. Liu, Y.-L. Guo, Y.-Q. Wang, L. Wang, Y. Guo, A.-Y. Borisevich, J.-S. Zhang*, G.-Z. Lu, S. Dai*. A sacrificial coating strategy toward enhancement of metal−support interaction for ultrastable Au nanocatalysts,J. Am. Chem. Soc.,2016,
  5. Q. Xu, Z.-L. Fang, Y.-Y. Chen, Y.-L. Guo, Y. Guo, L. Wang, Y.-S Wang, J.-S. Zhang,W.-C. Zhan*. Titania−samarium−manganese composite oxide for the low-temperature selective catalytic reduction of NO with NH3,Environ. Sci. Technol.,2020,
  6. Z. Wang, Z.-P. Huang, J.-T. Brosnahan, S. Zhang, Y.-L. Guo, Y. Guo, L. Wang, Y.-S. Wang,W.-C. Zhan*. Ru/CeO2catalyst with optimized CeO2support morphology and surface facets for propane combustion,Environ. Sci. Technol.,2019,
  7. Z. Hu, Z. Wang, Y. Guo, L. Wang, Y.-L. Guo, J.-S. Zhang,W.-C. Zhan*. Total oxidation of propane over a Ru/CeO2catalyst at low temperature,Environ. Sci. Technol.,2018,
  8. Q.-G. Dai, Z.-Y. Zhang, J.-R. Yan, J.-Y. Wu, G. Johnson, W. Sun, X.-Y. Wang, S. Zhang*,W.-C. Zhan*. Phosphate-functionalized CeO2nanosheets for efficient catalytic oxidation of dichloromethane,Environ. Sci. Technol.,2018,
  9. Y.-Q. Ding, Q.-Q. Wu, B. Lin, Y.-L. Guo, Y. Guo, Y.-S Wang, L. Wang,W.-C. Zhan*. Superior catalytic activity of a Pd catalyst in methane combustion by fine tuning the phase of ceria-zirconia support,Appl. Catal. B: Environ.,2020,
  10. W.-C. Hua, C.-H. Zhang, Y.-L. Guo*, G.-T. Chai, C. Wang, Y. Guo, L. Wang, Y.-S. Wang,W.-C. Zhan*.Appl. Catal. B: Environ.,2019,
  11. Q.-G. Dai, J.-Y Wu, W. Deng, J.-S. Hu, Q.-Q. Wu, L.-M. Guo, W. Sun,W.-C. Zhan*, Xingyi Wang*. Comparative studies of P/CeO2and Ru/CeO2catalysts for catalytic combustion of dichloromethane: From effects of H2O to distribution of chlorinated by-products,Appl. Catal. B: Environ.,2019,
  12. X.-F. Liu, Z.-D. Hood, Q. Zheng, T. Jin, G.-S. Foo, Z-.L. Wu, C.-C. Tian, Y.-L. Guo, S. Dai*,W.-C. Zhan*, H.-Y. Zhu*, M.-F. Chi*. Optimizing the structural configuration of FePt-FeOxnanoparticles at the atomic scale by tuning the post-synthetic conditions,Nano Energy,2019,
  13. X.-W. Yang, Q. Gao, Z.-Y. Zhao, Y.-L. Guo, Y. Guo, L. Wang, Y.-S. Wang,W.-C. Zhan*. Surface tuning of noble metal doped perovskite oxide by synergistic effect of thermal treatment and acid etching: A new path to high-performance catalysts for methane combustion,Appl. Catal. B: Environ.,2018,
  14. Z. Hu, S. Qiu, Y. You, Y. Guo, Y.-L. Guo, L. Wang,W.-C. Zhan*, G.-Z. Lu*. Hydrothermal synthesis of NiCeOxnanosheets and its application to the total oxidation of propane,Appl. Catal. B: Environ.,2018,
  15. D.-M. Meng, Q. Xu, Y.-L. Jiao, Y. Guo, Y.-L. Guo, L. Wang, G.-Z. Lu*,W.-C. Zhan*. Spinel structured CoaMnbOxmixed oxide catalyst for the selective catalytic reduction of NOxwith NH3,Appl. Catal. B: Environ.,2018,
  16. W.-C. Zhan, S.-Z. Yang, P.-F. Zhang*, Y.-L. Guo, G.-Z. Lu*, M.-F. Chisholm, S. Dai*. Incorporating Rich Mesoporosity into a Ceria-Based Catalyst via Mechanochemistry,Chem. Mater.,2017,

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