个人简介

     北京大学，化学与分子工程学院/工学院，教授。本科毕业于四川大学化学系， 博士毕业于中科院大连化物所。 针对我国社会能源和资源优化利用过程，主要开展氢能制备与输运，以及高值碳基化学品/油品合成等方面研究工作。获得2013年度北京大学青年教师教学比赛一等奖，2014年度王选青年学者奖，2017年中国催化青年奖，2017年度中国科学十大进展。国家自然科学基金委员优秀青年基金、杰出青年基金获得者。 2016年入选英国皇家化学会会士(Fellow of Royal Society of Chemistry)。2014-2017年担任英国皇家化学会 Catalysis Science & Technology 副主编;目前担任 ACS Catalysis、Chinese Journal of Chemistry、Science Bulletin 副主编，Journal of Energy Chemistry、 Joule、Catalysis Science & Technology 等刊编委和顾问编委。

代表性著作

1. Xu Y., Zhai P., Deng Y. C., Xie J. L., Liu X., Wang S.*, Ma D.* Highly Selective Olefin Production from CO2 Hydrogenation on Iron Catalysts: A Subtle Synergy between Manganese and Sodium Additives. Angew. Chem. -Int. Edit., in press 

2. Yang J.Y., Peng M., Ren G. Q., Qi H. F., Zhou X., Xu J., Deng F., Chen Z. Q., Zhang J. C., Liu K. P., Pan X. L., Liu W., Su Y., Li W. Z.*, Qiao B. T.*, Ma D.*, Zhang T. Hydrothermally stable irreducible oxide‐modified Pd/MgAl2O4 catalyst for methane combustion. Angew. Chem. -Int. Edit., in press

3. Wang F. F., Tian J., Li M. Z., Li W. Z., Chen L. F., Liu X. Z., Li J., Muhetaer Aidaer, Li Q., Wang Y., Gu L., Ma D.* and Xu D. S.* A Photoactivated Cu–CeO2 Catalyst with Cu‐[O]‐Ce Active Species Designed through MOF Crystal Engineering. Angew. Chem. -Int. Edit., 2020, 59, 8203 –8209

4. Wu C. Y., Lin L. L., Liu J. J., Zhang J. P., Zhang F., Zhou T., Rui N., Yao S. Y., Deng Y. C., Yang F., Xu W. Q., Luo J., Zhao Y., Yan B. H., Wen X. D.*, José A. Rodriguez*, Ma D.* Inverse ZrO2/Cu as a highly efficient methanol synthesis catalyst from CO2 hydrogenation. Nature Communicatinos, in press  

5. Li Y. W., Gao W., Peng M., Zhang J. B., Sun J. L., Xu Y., Hong S., Liu X., Liu X. W., Wei M.*, Zhang B. S.* and Ma D.* Interfacial Fe5C2-Cu catalysts toward low-pressure syngas conversion to long-chain alcohols
Nature Communicatinos, 2020, 11, 61

6. Xu, Y.; Li, J.; Li, W. J.; Li, W. Z.; Zhang, X. C.; Zhao, Y.; Xie, J. L.; Wang, X. P.; Liu, X.; Li, Y. W.; Xiao, D. Q.; Yin, Z.*; Cao, Y.*; Ma, D.* Direct conversion of CO and H2O into liquid fuels under mild conditions. Nature Communications 2019,10-1038.

7. Lin, L.; Yao, S.; Gao, R.; Liang, X.; Yu, Q.; Deng, Y.; Liu, J.; Peng, M.; Jiang, Z.; Li, S.; Li, Y.W.; Wen, X.D.*; Zhou, W.*; Ma, D.* A highly CO-tolerant atomically dispersed Pt catalyst for chemoselective hydrogenation. Nature Nanotechnology 2019, 14, 354

8. Xie J. J., Jin R. X., Li A., Bi Y. P., Ruan Q. S., Deng Y. C., Zhang Y. J., Yao S. Y., Sankar G., Ma D.*, Tang J. W.* Highly selective oxidation of methane to methanol at ambient conditions by titanium dioxide-supported iron species. Nature Catalysis, 2018, 1, 889-896.

9. Huang F., Deng Y. C., Chen Y. L., Cai X. B., Peng M., Jia Z. M., Ren P. J., Xiao D. Q., Wen X. D., Wang N., Liu H. Y.*, Ma D.* Atomically dispersed Pd on nanodiamond/graphene hybrid for selective hydrogenation of acetylene. Journal of the American Chemical Society, 2018, 140, 13142-13146.

10. Deng Y. C., Gao R., Lin L. L., Liu T., Wen X. D., Wang S.*, Ma D.* Solvent tunes the selectivity of hydrogenation reaction over α-MoC catalyst. Journal of the American Chemical Society, 2018, 140, 14481-14489.

11. Yin Z.*, Wang Y., Song C. Q., Zheng L. H., Ma N., Liu X., Li S. W., Lin L. L., Li M. Z., Xu Y., Li W. Z., Hu G., Fang Z. Y., Ma D.* Hybrid Au-Ag nanostructures for enhanced plasmon-driven catalytic selective hydrogenation through visible light irradiation and surface-enhanced raman scattering. Journal of the American Chemical Society, 2018, 140, 864-867.

12. Xu M., Yao S. Y., Rao D. M., Niu Y. M., Liu N., Peng M., Zhai P., Man Y., Zheng L. R., Wang B.*, Zhang B. S.*, Ma D.*, Wei M.* Insights into interfacial synergistic catalysis over Ni@TiO2-x catalyst toward water-gas shift reaction. Journal of the American Chemical Society, 2018, 140, 11241-11251.

13. Yao S. Y., Zhang X., Zhou W., Gao R., Xu W. Q., Ye Y. F., Lin L. L., Wen X. D., Liu P., Chen B. B., Ethan C., Guo J. H., Zuo Z. J., Li W. Z., Xie J. L., Lu L., Christopher J. K., Gu L., Shi C.*, Jose A. R.*, Ma D.* Atomic-layered Au clusters on α-MoC as catalysts for the low-temperature water-gas shift reaction Science, 2017, 357, 389.

14. Lin L. L., Zhou W., Gao R., Yao S. Y., Zhang X., Xu W. Q., Zheng S. J., Jiang Z., Yu Q. L., Li Y. W., Shi C.*, Wen X. D.*, Ma D.* Low-temperature hydrogen production from water and methanol using Pt/α-MoC catalysts Nature, 2017, 544, 80.

15. Wei-Zhen Li, Jin-Xun Liu, Jun Gu, Wu Zhou, Si-Yu Yao, Rui Si, Yu Guo, Hai-Yan Su, Chun-Hua Yan, Wei-Xue Li*, Ya-Wen Zhang*, Ding Ma* Chemical insights into the design and development of face-centered cubic ruthenium catalysts for Fischer-Tropsch Synthesis Journal of the American Chemical Society, 2017, 139, 2267-2276.