在读研期间,所有与你读研相关的事情,可能都需要经过你的导师同意,所以说,选择导师真的很重要,也希望大家能够认真对待这件事,怎样才能选择适合自己的导师呢?这就要我们提前做足功课,尽可能多的搜集有关你准备报考的导师的信息,下面新东方在线考研频道为大家分享:“北京大学硕士研究生导师信息:马 丁”文章。
北京大学硕士研究生导师信息:马 丁
马 丁
教授,博士生导师
电话:010-62758603
电子信箱:dma@pku.edu.cn
课题组主页:www.chem.pku.edu.cn/mading
学术简历
1992-1996,学士,四川大学
1996-2001,博士,中国科学院大连化学物理研究所
2000年,访问学生,美国国家高场实验室
2001-2005,博士后,牛津大学/Bristol大学
2005-2007,副研究员/中国科学院百人计划,中科院大连化学物理研究所
2007-2009,研究员,中科院大连化学物理研究所催化基础国家重点实验室
2009-至今, 北京大学化学与分子工程学院研究员/教授
研究兴趣:
针对能源和环境中的催化问题,在环境友好、资源合理利用的前提下,设计新催化过程,构建新型高效催化剂体系,并结合operando表征手段来解决催化过程中的重要科学问题, 包括:
1) C1化学(合成气、二氧化碳、甲烷、甲醇的转化);
2)氢气的催化制备和输运;
3 ) 废塑料转化
荣誉与奖励:
新基石研究员(2023)
首届民珠学者奖(2022)
北京大学十佳导师(2019)
腾讯科学探索奖 (2019)
中国化学会-巴斯夫青年知识创新奖 (2019)
上海光源杰出用户奖 (2019)
国家自然科学奖二等奖 (第四完成人, 2019)
教育部长江学者特聘教授 (2018)
中组部万人计划创新领军人才 (2018)
中国科学十大进展 (2017)
国家杰出青年基金获得者(2017)
中国催化青年奖 (2017)
英国皇家化学会会士 (2016)
王选青年学者奖 (2014)
北京大学青年教师教学比赛一等奖 (2013)
国家优秀青年基金获得者 (2012)
主要学术兼职:
ACS Central Science编委(2023-至今)
National Science Open副主编(2023-至今)
Journal of Catalysis编委(2021-至今)
低碳化学与化工 编委(2021-至今)
Discover Chemical Engineering编委 (2020-至今)
Chem Catalysis编委 (2020-2021)
Innovation编委 (2020-至今)
Applications in Energy and Combustion Science编委 (2019-至今)
高等学校化学学报 青年编委(2019-至今)
ACS Catalysis副主编 (2019-至今)
Science Bulletin副主编(2017-2018)
Chinese Journal of Chemistry副主编 (2018-至今)
Joule编委 (2017-至今)
ACS Catalysis编委 (2017-2019)
Catalysis Science & Technology 编委(2017-至今)
Journal of Energy Chemistry编委(2016-至今)
Catalysis Science & Technology 副主编(2014-2017)
学术论著:
Z. Yin*, Y. Wang, C. Song, L. Zheng, N. Ma, X. Liu, S. Li, L. Lin, M. Li, Y. Xu, W. Li, G. Hu, Z. Fang, Ma D.* Hybrid Au-Ag Nanostructures for Enhanced Plasmon-Driven Selective Hydrogenation through Visible Light Irradiation and Surface-Enhanced Raman Scattering J. Am. Chem. Soc. 2018 DOI: 10.1021/jacs.7b11293
L. Lin, W. Zhou, R. Gao, S. Yao, X. Zhang, W. Xu, S. Zheng, Z. Jiang, Q. Yu, Y-W Li, C. Shi*, X-D. Wen* and D. Ma* Low temperature hydrogen production from water and methanol using Pt/α-MoC catalysts Nature, 2017, 544, 80
S. Yao, X. Zhang, W. Zhou, R. Gao, W. Xu, Y. Ye, L. Li, X. Wen, P. Liu, B. Chen, E. Crumlin, J. Guo, Z. Zuo. W. li, J. Xie, L. Lu, C. Kiely, L. Gu, C. Shi*, J. Rodriguez* and D. Ma* Atomic-layered Au clusters on α-MoC as catalysts for the low-temperature water-gas shift reaction Science, 2017, 357, 389
Zhao B., Zhai P., Wang P., Li J., Li T., Zhao M., Hu G., Yang Y., Li Y., Zhang Q., Fan W.*, Ma D.* Direct Transformation of Syngas to Aromatics over Na-Zn-Fe5C2 and Hierarchical HZSM-5 Tandem Catalysts. Chem 2017, 3, 323
W. Li, J. Liu, J. Gu, W. Zhou, S. Yao, R. Si, Y. Guo, H. Su, C-H. Yan, W-X. Li*, Y-W. Zhang* and D. Ma* Chemical Insights into the Design and Development of Face-centered Cubic Ruthenium Catalysts for Fischer-Tropsch Synthesis J. Am. Chem. Soc. 2017, 139,2267-2276 Full paper
S. Li, Y. Xu, Y. Chen, W. Li, L. Lin, M. Li, Y. Deng, X. Wang, B. Ge, C. Yang, S. Yao, J. Xie, Y. Li, X. Liu* and D. Ma* Tuning the selectivity of the catalytic CO2 hydrogenation reaction by strong metal‐support interaction. Angew. Chem.-Int. Edit. 2017, 56, 10761
P. Zhai, C. Xu, R. Gao, X. Liu, M. Z. Li, W. Z. Li, X. P. Fu, J. J. Jia, J. Xie, M. Zhao, X. P. Wang, Y. W. Li, Q. W. Zhang *, X. D. Wen * and D. Ma * Highly Tunable Selectivity for Syngas-Derived Alkenes over Zinc and Sodium-Modulated Fe5C2 Catalyst. Angew. Chem.-Int. Edit. 2016, 55, 9902
Y. Gao, P. Tang, H. Zhou, W. Zhang, H. Yang, N. Yan, G. Hu, D. Mei, J. Wang*, D. Ma* Graphene Oxide-Catalyzed C-H Bond Activation: On the Charge Induced Capabilities of Oxygen Groups in the Catalytic Biaryl Construction Angew. Chem.-Int. Edit. 2016, 55, 3234
Zhao Y. F., Zhao B., Liu J. J., Chen G. B., Gao R., Yao S. Y., Li M. Z., Zhang Q. H., Gu L., Xie J. L., Wen X. D., Wu L. J., Tung C. H., Ma D.*, Zhang T. R.* Oxide-modified nickel photocatalysts for the production of hydrocarbons in visible light Angew. Chem.-Int. Edit., 2016, 55,4215
P. Tang, Q. Zhu, X. Wu, D. Ma* Methane Conversion: the past and future Energy Environ. Sci. 2014, 7, 2580
J. Li, L. Liu, Y. Liu, M. Li, Y. Zhu, H. Liu, Y. Kou, J. Zhang, Y. Han*, D. Ma* Direct Conversion of Cellulose Using Carbon Monoxide and water on a Pt-Mo2C/C catalyst Energy Environ. Sci. 2014, 7, 393
J. Yang, G. Sun, Y. Gao, H. Zhao, P. Tang, J. Tan, A. Lu, D. Ma* Direct catalytic oxidation of benzene to phenol over metal-free graphene-based catalyst Energy Environ. Sci. 2013, 6, 793
H. Wang, W.Zhou, J. Liu, R. Si, G. Sun, M. Zhong, H. Su, J. Rodriguez, S. Pennycook, J. Idrobo, W. Li*, Y. Kou*, D. Ma* Platinum-modulated Cobalt Nano-Catalysts for Low Temperature Aqueous-phase Fischer-Tropsch Synthesis J. Am. Chem. Soc. 2013,135, 4149-4158 Full paper
Y. Gao, G. Hu, J. Zhong, Z. Shi, Y. Zhu, D. Su*, J. Wang*, X. Bao and D. Ma* N-doped sp2 carbon with superior performance in selective oxidation catalysis Angew. Chem.-Int. Edit. 2013, 52, 2109
C. Yang, H. Zhao, Y. Hou*, D. Ma* Fe5C2 Nanoparticles: A Facile Bromide-induced Synthesis and as an Active Phase for Fischer-Tropsch Synthesis (FTS) J. Am. Chem. Soc. 2012, 124, 15814-15821 Full paper
Y. Gao, D. Ma*, G. Hu, P. Zhai, X. Bao, B. Zhu, B. Zhang, D. S. Su* Layered-Carbon-stabilized Iron Oxide Nanostructures as Oxidation Catalysts Angew. Chem.-Int. Edit. 2011, 50, 10236
Q. Fu, W. Li, Y. Yao, H. Liu, H. Su, D. Ma, X. Gu,L. Chen, H. Zhang, B. Wang, X. Bao* Interface-Confined Ferrous Centers for Catalytic Oxidation Science, 2010, 328, 1141
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