成康

发布日期:2020-07-23     浏览次数:次   

教授,博士生导师
实验室电话:0592-2187470
办公室:化学楼324室
E-mail:
kangcheng@xmu.edu.cn
课题组网页:https://wangye.xmu.edu.cn/

个人简历:

教授(beat365官方网站,2023-)
副教授(beat365官方网站,2020-2022)
博士后(荷兰乌特勒支大学,徳拜纳米科学研究所,2017-2020)
iChEM研究员(能源材料化学协同创新中心,2014-2017)
博士(法国里尔大学分子与凝聚态材料专业,2012-2015)
博士(beat365官方网站化学系物理化学专业,2009-2014)
学士(四川大学轻化工程专业,2005-2009)

研究兴趣:

与工业催化相关的合成气转化,二氧化碳和甲烷的催化转化,烷烃异构、裂解和芳构化反应。

近期主要代表论著:

  1. 1. K. Cheng,# L. C. J. Smulders,# G. Sunley, K. P. de Jong*, et al., Science, 377 (2022) 204-208.

  2. 2. J. Xiao,# K. Cheng,# X. Xie, Y. Wang,* B.M. Weckhuysen,* et al., Tandem catalysis with double-shelled hollow spheres, Nature Materials, 21 (2022) 572-579.

  3. 3. Y. Li, M. Wang, S. Liu, K. Cheng*, et al., ACS Catalysis, 12 (2022) 8793-8801.

  4. 4. Y. Wang,# G. Wang,# K. Cheng,* K.P. de Jong,* Y. Wang,* et al., Visualizing Element Migration over Bifunctional Metal-Zeolite Catalysts and its Impact on Catalysis, Angew Chem Int Ed, 60 (2021) 17735-17743.

  5. 5. M. Wang, Z. Wang, K. Cheng,* Q. Zhang, Y. Wang,* et al., Synthesis of hierarchical SAPO-34 to improve the catalytic performances of bifunctional catalysts for syngas-to-olefins reaction, Journal of Catalysis, 394 (2021) 181-192.

  6. 6. K. Cheng, L.I. van der Wal, J. Zečević, K.P. de Jong,* et al., Impact of the Spatial Organization of Bifunctional Metal-Zeolite Catalysts for Hydroisomerization of Light Alkanes, Angew Chem Int Ed, 59 (2020) 3592-3600.

  7. 7. K. Chen, Y. Li, K. Cheng,* Q. Zhang,* et al., Functionalized Carbon Materials in Syngas Conversion, Small, 17 (2021) 2007527.

  8. 8. X. Liu, M. Wang, K. Cheng,* Q. Zhang,* Y. Wang,* et al., Tandem Catalysis for Hydrogenation of CO and CO2 to Lower Olefins with Bifunctional Catalysts Composed of Spinel Oxide and SAPO-34, ACS Catalysis, 10 (2020) 8303–8314.

  9. 9. C. Zhou, K. Cheng,* Y. Wang,* et al., Highly Active ZnO-ZrO2 Aerogels Integrated with H-ZSM-5 for Aromatics Synthesis from Carbon Dioxide, ACS Catalysis, 10 (2020) 302-310.

  10. 10. W. Wang, K. Cheng,* Q. Zhang,* et al., In-situ confinement of ultrasmall palladium nanoparticles in silicalite-1 for methane combustion with excellent activity and hydrothermal stability, Appl Catal B: Environ, 276 (2020) 119142.

  11. 11. W. Zhou,# J. Kang,# K. Cheng,# Q. Zhang,* Y. Wang,* et al., Direct Conversion of Syngas into Methyl Acetate, Ethanol and Ethylene by Relay Catalysis via Dimethyl Ether Intermediate, Angew Chem Int Ed, 57 (2018) 12012-12016.

  12. 12. X. Liu, W. Zhou, K. Cheng,* Q. Zhang,* Y. Wang,* et al., Design of efficient bifunctional catalysts for direct conversion of syngas into lower olefins via methanol/dimethyl ether intermediates, Chemical Science, 9 (2018) 4708–4718.

  13. 13. K. Cheng, W. Zhou, Y. Wang,* et al., Bifunctional Catalysts for One-Step Conversion of Syngas into Aromatics with Excellent Selectivity and Stability, Chem, 3 (2017) 334-347.

  14. 14. K. Cheng, J. Kang, D.L. King, Y. Wang,* et al., Advances in Catalysis for Syngas Conversion to Hydrocarbons, Advance in Catalysis, 60 (2017) 125-208.

  15. 15. K. Cheng,# B. Gu,# X. Liu,# J. Kang, Q. Zhang,* Y. Wang,* Direct and Highly Selective Conversion of Synthesis Gas to Lower Olefins: Design of a Bifunctional Catalyst Combining Methanol Synthesis and Carbon–Carbon Coupling, Angew Chem Int Ed, 55 (2016) 4725-4728.

  16. 16. K. Cheng, V.V. Ordomsky,* A.Y. Khodakov, et al., The role of carbon pre-coating for the synthesis of highly efficient cobalt catalysts for Fischer–Tropsch synthesis, Journal of Catalysis, 337 (2016) 260-271.

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