[1] Lin L. L., Yao S. Y., Gao R., Liang X., Yu Q. L., Deng Y. C., Liu J. J., Peng M., Jiang Z., S. Li, Li Y. W., Wen X. D., Zhou W.* & Ma D.*A highly CO-tolerant atomically dispersed Pt catalyst for chemoselective hydrogenation. Nat. Nanotechnol., 2019, 14, 354–361.
[2] Yin Z.*, Wang Y., Song C. Q., Zheng L. H., Ma N., Liu X., S. Li, 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. J. Am. Chem. Soc., 2018, 140, 864-867.
[3] Ge Y. Z., Qin X. T., Li A. W., Deng Y. C., Lin L. L., Zhang M. T., Yu Q. L., S. Li, Peng M., Xu Y., Zhao X. Y., Xu M. Q., Zhou W.*, Yao S. Y.*, Ma D*.Maximizing the Synergistic Effect of CoNi Catalyst on α-MoC for Robust Hydrogen Production. J. Am. Chem. Soc. In Press.
[4] Yi Li, Huanhuan Wang, Cameron Priest, S. Li, Ping Xu*, Gang Wu*. Advanced Electrocatalysis for Energy and Environmental Sustainability via Water and Nitrogen Reactions. Adv. Mater., 2020, 32, 2000381.
[5] Zhao, Y. F., Gao, W., S. Li, Gareth R. W., Ma, D.* Solar versus thermal-driven catalysis for energy conversion. Joule, 2019, 3, 920.
[6] Gao W., Gao R., Zhao Y. F., Peng M., Song C. Q., Li M. Z.,S. Li, Liu J. J., Li W. Z., Deng Y. C., Zhang M. T., Xie J. L., Hu G., Zhang Z. S., Long R., Wen X. D.*, Ma D.* Photo-Driven Syngas Conversion to Lower Olefins over Oxygen-Decorated Fe5C2 Catalyst. Chem, 2018, 4, 2917-2928.
[7] Yunrui Zhang, Yongjun Gao*, Siyu Yao*, S. Li, Hiroyuki Asakura, Kentaro Teramura, Haijun Wang and Ding Ma*.Sublimation-Induced Sulfur Vacancies in MoS2 Catalyst for One-Pot Synthesis of Secondary Amines. ACS Catal., 2019, 9, 7967-7975.
[8] Yang C., Zhao B., Gao R., Yao S. Y., Zhai P., S. Li, Yu J., Hou Y. L.* and Ma D*. Construction of Synergistic Fe5C2/Co Heterostructured Nanoparticles as an Enhanced Low Temperature Fischer-Tropsch Synthesis Catalyst. ACS Catal., 2017, 9, 5661-5667.
[9] Pengqi Yan, Wenhan Guo, Zibin Liang, Wei Meng, Zhen Yin, S. Li, Mengzhu Li, Mengtao Zhang, Jie Yan, Dequan Xiao, Ruqiang Zou*, Ding Ma*. Highly efficient K-Fe/C catalysts derived from metal-organic frameworks towards ammonia synthesis. Nano Res, 2019, 12, 2341-2347.
[10] Yao S. Y., Yang C., Zhao H. B., S. Li, Lin L. L., Wen W., Liu J. X., Hu G., Li W. X., Hou Y. L.*, Ma D.* Reconstruction of the Wet Chemical Synthesis Process: The Case of Fe5C2 Nanoparticles. J. Phys. Chem. C, 2017, 121, 5154-5160.
[11] Hongtao Zhao,* Zhigang Li,* Nan Zhang, Yunchen Du, S. Li, Lin Shao, Deyu Gao, Xijiang Han and Ping Xu*. γ-irradiation induced one-step synthesis of electromagnetic functionalized reduced graphene oxide-Ni nanocomposites. RSC Adv., 2014, 4 (57), 30467 - 30470.
[12] Hongtao Zhao, Zhigang Li, Nan Zhang, S. Li, Lu Xiong, Shuai Liu, Wen Jin, Leilei Kang, Ping Xu*. Gamma-irradiation induced direct fabrication of SERS-active Ag nanoparticles on glass substrates. RSC Adv., 2014, 4 (39), 20247 - 20251.
[13]Jing Wang, Jing Hu, Siqi Niu, Siwei Li, Yunchen Du, Ping Xu*. Crystalline-Amorphous Ni2P4O12/NiMoOx Nanoarrays for Alkaline Water Electrolysis: Enhanced Catalytic Activity via In-situ Surface Reconstruction. Small 2021
[14] Yuanyuan Zhang, Ping Guo, Siwei Li, Wei Wang, Bo Song, Xiaoxuan Yang, Xianjie Wang, Zaixing Jiang, Gang Wu*, Ping Xu*. Magnetic Field Assisted Electrocatalytic Oxygen Evolution Reaction of Nickel-Based Materials. J. Mater. Chem. A 2021
[15] Jing Hu*, Adel Al-Salihy, Bin Zhang, Siwei Li, Ping Xu*. Mastering the D-Band Center of Iron-Series Metal-BasedElectrocatalysts for Enhanced Electrocatalytic Water Splitting. Int. J. Mol. Sci. 2022, 23, 15405
[16] Y. Li, B. Lan, C. Dai, S. Li, F. Zhang*, Z. Lin*. Molten salt derived Mo2AlB2 with excellent HER catalytic performance. Mater. Res. Lett. 2023, 11, 571