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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(维多利亚vic309官网,2023-)
副教授(维多利亚vic309官网,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(维多利亚vic309官网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. L. Zeng,# K. Cheng,# F. Sun,# Q. Fan,# Z. Jiang,* G. Fu,* Y. Wang,* et al., Stable anchoring of single rhodium atoms by indium in zeolite alkane dehydrogenation catalysts. Science, 383 (2024) 998–1004.

  2. 2. K. Cheng, Y. Li, J. Kang, Q. Zhang, Y. Wang.* Selectivity Control by Relay Catalysis in CO and CO2 Hydrogenation to Multicarbon Compounds. Acc Chem Res, 57 (2024) 714–725.

  3. 3. M. Wang,# L. Zheng,# G Wang,# J.F. Wu,* K. Cheng,* Y. Wang,* et al., Spinel Nanostructures for the Hydrogenation of CO2 to Methanol and Hydrocarbon Chemicals. J Am Chem Soc, 2024, doi: 10.1021/jacs.4c00981.

  4. 4. Y. Xie, W. Wang, J. Cui, H. Li, K. Cheng,* Q. Zhang, Y. Wang.* K2SO4-promoted TiO2 for the efficient oxidative coupling of methane. Chem Eng Sci, 294 (2024) 120119.

  5. 5. X. Wei,# J. Cheng,# Y. Li, K. Cheng,* F. Sun,* Q. Zhang,* Y. Wang. Bimetallic clusters confined inside silicalite-1 for stable propane dehydrogenation. Nano Res, 16 (2023) 10881–10889.

  6. 6. J. Li, Q. Xu, Y. Han, Z. Guo, L. Zhao, K. Cheng,* Z. Qinghong, Y. Wang.* Efficient photothermal CO2 methanation over NiFe alloy nanoparticles with enhanced LSPR effect. Sci China Chem, 66 (2023) 3518–3524.

  7. 7. K. Cheng,# L. C. J. Smulders,# G. Sunley, K. P. de Jong,* et al., Maximizing noble metal utilization in solid catalysts by control of nanoparticle location. Science, 377 (2022) 204–208.

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

  9. 9. Y. Li, M. Wang, S. Liu, K. Cheng*, et al., Distance for Communication between Metal and Acid Sites for Syngas Conversion. ACS Catal, 12 (2022) 8793–8801.

  10. 10. 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.

  11. 11. 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.

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

  13. 13. 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 Catal, 10 (2020) 302–310.

  14. 14. 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.

  15. 15. 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, Chem Sci, 9 (2018) 4708–4718.

  16. 16. 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.

  17. 17. 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.

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