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20200329-RSS-SACs单原子催化文献每周周日推送[1-27] 良好的科研,从自己阅读文献开始。 每周周日推送25篇左右单原子催化最新文献,欢迎关注公众号学习与交流。 后续将提供同步辐射解谱操作,同步辐射拟合,逐步讲解与指导; 介绍各大顶级期刊同步辐射解谱结果分析与讨论,欢迎投稿与合作; 如有任何错误指正、意见建议、不明之处、需要解答的问题,欢迎留言提问! 本公众号提供同步辐射XAFS、XANES、EXAFS、SACs、单双三原子催化的数据解谱与分析;已有多篇文章发于Nat Commun、ACS Catal、J Mater Chem A、Chem Commun、Chem Eng J、ACS Appl Mater Interfaces、Ind Eng Chem Res、Sci China Chem、ChemSusChem、Catal Sci Technol等优秀期刊;欢迎交流与合作,有意者请扫码关注公众号留言或加微信好友:SACs2020,QQ603857205.谢谢。 [1] J Li, P Liu, Y Z Tang, H L Huang, H Z Cui, D H Mei, C L Zhong. Single-Atom Pt-N-3 Sites on the Stable Covalent Triazine Framework Nanosheets for Photocatalytic N-2 Fixation [J]. Acs Catalysis, 2020, 10(4): 2431-42. 10.1021/acscatal.9b04925. [2] J C Li, S Maurya, Y S Kim, T Li, L G Wang, Q R Shi, D Liu, S Feng, Y H Lin, M H Shao. Stabilizing Single-Atom Iron Electrocatalysts for Oxygen Reduction via Ceria Confining and Trapping [J]. Acs Catalysis, 2020, 10(4): 2452-8. 10.1021/acscatal.9b04621. [3] J Wang, R You, C Zhao, W Zhang, W Liu, X P Fu, Y Y Li, F Y Zhou, X S Zheng, Q Xu, T Yao, C J Jia, Y G Wang, W X Huang, Y E Wu. N-Coordinated Dual-Metal Single-Site Catalyst for Low-Temperature CO Oxidation [J]. Acs Catalysis, 2020, 10(4): 2754-61. 10.1021/acscatal.0c00097. [4] J X Zhao, C Q Chen, C H Xing, Z F Jiao, M T Yu, B B Mei, J Yang, B Y Zhang, Z Jiang, Y Qin. Selectivity Regulation in Au-Catalyzed Nitroaromatic Hydrogenation by Anchoring Single-Site Metal Oxide Promoters [J]. Acs Catalysis, 2020, 10(4): 2837-44. 10.1021/acscatal.9b04855. [5] J H Kim, D Shin, J Lee, D S Baek, T J Shin, Y T Kim, H Y Jeong, J H Kwak, H Kim, S H Joo. A General Strategy to Atomically Dispersed Precious Metal Catalysts for Unravelling Their Catalytic Trends for Oxygen Reduction Reaction [J]. Acs Nano, 2020, 14(2): 1990-2001. 10.1021/acsnano.9b08494. [6] E Meza, R E Diaz, C W Li. Solution-Phase Activation and Functionalization of Colloidal WS2 Nanosheets with Ni Single Atoms [J]. Acs Nano, 2020, 14(2): 2238-47. 10.1021/acsnano.9b09245. [7] B Mallada, S Edalatmanesh, P Lazar, J Redondo, A Gallardo, R Zboril, P Jelinek, M Svec, B de la Torre. Atomic-Scale Charge Distribution Mapping of Single Substitutional p- and n-Type Dopants in Graphene [J]. Acs Sustainable Chemistry & Engineering, 2020, 8(8): 3437-44. 10.1021/acssuschemeng.9b07623. [8] S Ibraheem, S G Chen, L L Peng, J Li, L Li, Q Liao, M H Shao, Z D Wei. Strongly coupled iron selenides-nitrogen-bond as an electronic transport bridge for enhanced synergistic oxygen electrocatalysis in rechargeable zinc-O-2 batteries [J]. Applied Catalysis B-Environmental, 2020, 265(10.1016/j.apcatb.2019.118569. [9] R G Ma, G X Lin, Q J Ju, W Tang, G Chen, Z H Chen, Q Liu, M H Yang, Y F Lu, J C Wang. Edge-sited Fe-N-4 atomic species improve oxygen reduction activity via boosting O-2 dissociation [J]. Applied Catalysis B-Environmental, 2020, 265(10.1016/j.apcatb.2020.118593. [10] P Jing, X Gong, B C Liu, J Zhang. Recent advances in synergistic effect promoted catalysts for preferential oxidation of carbon monoxide [J]. Catalysis Science & Technology, 2020, 10(4): 919-34. 10.1039/c9cy02073j. [11] H J Wang, X C Lan, S Q Wang, B Ali, T F Wang. Selective hydrogenation of 2-pentenal using highly dispersed Pt catalysts supported on ZnSnAl mixed metal oxides derived from layered double hydroxides [J]. Catalysis Science & Technology, 2020, 10(4): 1106-16. 10.1039/c9cy02200g. [12] W B Zhang, Y Xiao. Mechanism of Electrocatalytically Active Precious Metal (Ni, Pd, Pt, and Ru) Complexes in the Graphene Basal Plane for ORR Applications in Novel Fuel Cells [J]. Energy & Fuels, 2020, 34(2): 2425-34. 10.1021/acs.energyfuels.9b04036. [13] J K Wang, Z X Huang, L L Lu, Q L Jia, L Huang, S Chang, M Y Zhang, Z T Zhang, S Li, D S He, W H Wu, S W Zhang, N Toshima, H J Zhang. Colloidal Co single-atom catalyst: a facile synthesis strategy and high catalytic activity for hydrogen generation [J]. Green Chemistry, 2020, 22(4): 1269-74. 10.1039/c9gc03477c. [14] M Y Ouyang, S F Cao, S Z Yang, M W Li, M Flytzani-Stephanopoulos. Atomically Dispersed Pd Supported on Zinc Oxide for Selective Nonoxidative Ethanol Dehydrogenation [J]. Industrial & Engineering Chemistry Research, 2020, 59(6): 2648-56. 10.1021/acs.iecr.9b05202. [15] Y Gu, A P Wu, L Wang, D X Wang, H J Yan, P Yu, Y Xie, C G Tian, F F Sun, H G Fu. A "competitive occupancy" strategy toward Co-N-4 single-atom catalysts embedded in 2D TiN/rGO sheets for highly efficient and stable aromatic nitroreduction [J]. Journal of Materials Chemistry A, 2020, 8(9): 4807-15. 10.1039/c9ta13615k. [16] B L Liang, S Guo, Y B Zhao, I U Khan, X L Zhang, K X Li, C C Lv. Single iron atoms anchored on activated carbon as active centres for highly efficient oxygen reduction reaction in air-cathode microbial fuel cell [J]. Journal of Power Sources, 2020, 450(10.1016/j.jpowsour.2019.227683. [17] X Wang, Y W Zhang, H N Si, Q H Zhang, J Wu, L Gao, X F Wei, Y Sun, Q L Liao, Z Zhang, K Ammarah, L Gu, Z Kang, Y Zhang. Single-Atom Vacancy Defect to Trigger High-Efficiency Hydrogen Evolution of MoS2 [J]. Journal of the American Chemical Society, 2020, 142(9): 4298-308. 10.1021/jacs.9b12113. [18] H Y Zhu, X Gan, A McCreary, R T Lv, Z Lin, M Terrones. Heteroatom doping of two-dimensional materials: From graphene to chalcogenides [J]. Nano Today, 2020, 30(10.1016/j.nantod.2019.100829. [19] K Liu, J W Fu, L Zhu, X D Zhang, H M Li, H Liu, J H Hu, M Liu. Single-atom transition metals supported on black phosphorene for electrochemical nitrogen reduction [J]. Nanoscale, 2020, 12(8): 4903-8. 10.1039/c9nr09117c. [20] Q Ke, L Yang, Y B Gao, X L Wu, F Chen, S J Liu, H J Lin, C Z Yuan, J R Chen. Dual active sites of the Co2N and single-atom Co-N-4 embedded in nitrogen-rich nanocarbons: a robust electrocatalyst for oxygen reduction reactions [J]. Nanotechnology, 2020, 31(16): 10.1088/1361-6528/ab6471. [21] J Q Zhang, K Ishizuka, M Tomitori, T Arai, Y Oshima. Atomic scale mechanics explored by in situ transmission electron microscopy with a quartz length-extension resonator as a force sensor [J]. Nanotechnology, 2020, 31(20): 10.1088/1361-6528/ab71b9. [22] A I Kirkland. A 3D map of atoms in 2D materials [J]. Nat Mater, 2020, 10.1038/s41563-020-0646-3. [23] R Q Ku, G T Yu, J Gao, X R Huang, W Chen. Embedding tetrahedral 3d transition metal TM4 clusters into the cavity of two-dimensional graphdiyne to construct highly efficient and nonprecious electrocatalysts for hydrogen evolution reaction [J]. Physical Chemistry Chemical Physics, 2020, 22(6): 3254-63. 10.1039/c9cp06057j. [24] W J Yang, M L Zhao, X L Ding, K Ma, C C Wu, I D Gates, Z Y Gao. The effect of coordination environment on the kinetic and thermodynamic stability of single-atom iron catalysts [J]. Physical Chemistry Chemical Physics, 2020, 22(7): 3983-9. 10.1039/c9cp05349b. [25] Y W Li, W J Zhang, C X Li, L Gu, H M Du, H Y Ma, S N Wang, J S Zhao. A dinuclear cobalt cluster as electrocatalyst for oxygen reduction reaction [J]. Rsc Advances, 2019, 9(72): 42554-60. 10.1039/c9ra08068f. [26] H N Li, H Zhu, Z C Zhuang, S L Lu, F Duan, M L Du. Single-atom catalysts for electrochemical clean energy conversion: recent progress and perspectives [J]. Sustainable Energy & Fuels, 2020, 4(3): 996-1011. 10.1039/c9se01004a. [27] F L Lu, H H Bao, Y Y Mi, Y F Liu, J Q Sun, X Y Peng, Y Qiu, L C Zhuo, X J Liu, J Luo. Electrochemical CO2 reduction: from nanoclusters to single atom catalysts [J]. Sustainable Energy & Fuels, 2020, 4(3): 1012-28. 10.1039/c9se00776h. ![20200329-RSS-单原子催化文献每周周日推送[1-27]](http://emuchvimg.oss-cn-qingdao.aliyuncs.com/img/2020/0331/bw298h3058403_1585644359_766.png#opennewwindow) 组合3.png |
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