Faculty by Alphabet

Publish Date:07.March 2016     Visted: Times       

Bing-Hui CHEN

Publish Date:11.May 2017     Visted: Times       


Phone: +86 (0) 592-2185253
Fax: +86 (0) 592-2184822
E-mail:
chenbh@xmu.edu.cn

Address:
College of Chemistry and Chemical Engineering,
Xiamen University, Xiamen 361005, China


Education:
BS (1984), Huaqiao University
MS (1991), Zhejiang University
PhD (1998), Leeds University

Principal Research Interests:
Catalysis, Chemical Reaction Engineering, Process System Engineering

Selected Recent Publications:

  1. 1. Aolin Lu, Hanlei Sun, Nuowei Zhang, Liming Che, Shiyao Shan, Jin Luo, Jinbao Zheng, Lefu Yang, Dong-Liang Peng, Chuan-Jian Zhong, Chen BH*(2019). Surface Partial-Charge-Tuned Enhancement of Catalytic Activity of Platinum Nanocatalysts for Toluene Oxidation. ACS Catalysis 97431-7442

  2. 2. Fen Wang, Jing-Cai Zhang, Zhi-Qiang Chen, Jing-Dong Lin, Wei-Zhen Li, Yong Wang Chen BH*(2019). Water-saving dry methanation for direct conversion of syngas to synthetic natural gas over robust Ni0.1Mg0.9Al2O4 catalyst.Journal of Catalysis 375: 466-477

  3. 3. CaoZhikai; Hu Tao; Guo JW; Xie Jianrong; Zhang NW; Zheng JB; Che Liming; Chen BH*(2019). Stable and facile ethanol synthesis from syngas in one reactor by tandem combination CuZnAl-HZSM-5, modified-H-Mordenite with CuZnAl catalyst. Fuel, 254: 115542–115547

  4. 4. Wang F, Zhang JC, Li WZ, Chen BH*(2019).Coke-resistant Au–Ni/MgAl2O4 catalyst for direct methanation of syngas. Journal of Energy Chemistry 39: 198–207

  5. 5. Fu JL, Yue QQ, Guo HZ, Ma CJ, Wen YY, Zhang H, Zhang NW,* Zheng YP, Zheng JB, and Chen BH*(2018).Constructing Pd/CeO2/C To Achieve High Leaching Resistance and Activity for Catalytic Wet Air Oxidation of Aqueous Amide.ACS Catalysis 8, 4980-4985

  6. 6. Fu JL, XiaoDW, Yue QQ, Geng LL, Fasan Paul,Zhang NW*, Zheng JB and Chen BH* (2018).Insights into the reaction mechanism of catalytic wet air oxidation of ammonia over bimetallic Ru-Cu catalyst. Topics in catalysis. 61(15-17), 1684–1693

  7. 7. Fu JL, XiaoDW, Yue QQ, Geng LL, Fasan Paul,Zhang NW*, Zheng JB and Chen BH* (2018).Insights into the reaction mechanism of catalytic wet air oxidation of ammonia over bimetallic Ru-Cu catalyst. Topics in catalysis. 61(15-17), 1684–1693

  8. 8. YangZ, Zhu HZ, Zhu HJ, Wang YB, Che LM, Yang ZQ, Fang J, Wu QH,Chen BH* (2018).Insights into the role of nanoalloy surface composition towardcatalytic acetone hydrogenation. Chem. Commun., 54, 8351-8354

  9. 9. YangZ, Chen WH, Zheng JB, YangZQ, NW, Zhong CJ,Chen BH* (2018).Efficientlow-temperature hydrogenation of acetone on bimetallic Pt-Ru/C catalyst. Journal of Catalysis 363: 52–62

  10. 10. Li YH,  Chen SJ,  Cai XH,  Hong JQ,  Wu XE,  Xu YZ,  Zou JJ,  Chen BH*(2018). Rational design and prepare of hierarchical monolith through 3D printing for syngas methanation. Journal of Materials Chemistry A 6: 5695 - 5702

  11. 11. Zhang H, Zhang XG, Wei J, Wang C, Shu C, Sun HL, Wang YH, Chen BH*(2017), Yang ZL, Wu DY, Li JF*, Tian ZQ (2017).Revealing the role of interfacial properties on catalytic behaviors by in-situ surface-enhanced Raman spectroscopy. Journal of the American Chemical Society.139 (30), 10339–10346

  12. 12. Ma CJ, Wen YY, Rong CL, Nuowei Zhang NW,* Zheng JB,Chen BH*(2017) δ-MnO2with ultrahigh Mn4+ fraction:highly active and stable for catalytic wet air oxidation of phenol under mild conditions. Catalysis Science & Technology 7, 3200–3204.

  13. 13. Zhang H, Wang C, Sun HL, Fu G*, Chen S, Zhang YJ, Chen BH*, Anema JR, Yang ZL, Li JF*, Tian ZQ (2017).In-situ dynamic tracking of heterogeneous nanocatalytic processes by shell-isolated nanoparticle-enhanced Raman spectroscopy. Nature communications 8:15447.

  14. 14. Deng XL, Li Y, Hu XY, Zhang J, Zheng JB, Zhang NW and Chen BH*  (2017). Nanostructured silver/ceria-zirconia synthesized towards highly active and stable catalyst for soot oxidation. ChemicalEngineeringJournal 313: 544–555

  15. 15. Fu JL, Yang KX, Ma CJ, Zhang NW*, Gai HJ, Zheng JB and Chen BH* (2016). Bimetallic Ru-Cu as a highly active, selective and stable catalyst for catalytic wet oxidation of aqueous ammonia to nitrogen. Applied Catalysis B: Environmental 184: 216–222

 


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