杨帆

时间:2019-09-02浏览:18463设置

杨帆课题组介绍


课题组长

杨帆,副教授/研究员
通讯地址:4号楼112
电子邮件:fyang@shanghaitech.edu.cn
2001年于北京大学化学系获学士学位;2007年于美国得克萨斯A&M大学化学系获博士学位;2008-2012年先后于美国得克萨斯A&M大学、美国布鲁克海文国家实验室从事博士后研究;自20128月,在中国科学院大连化学物理研究所催化基础国家重点实验室包信和院士团队工作,任研究员/博士生导师。201912月,加入威尼斯官网9778818物质科学与技术学院,兼任分析测试中心主任。

研究介绍

杨帆研究员主要从事纳米结构的表界面催化研究,近期研究主要涉及金属-氧化物界面和负载团簇结构在热催化与电催化过程中的作用,通过开发基于扫描探针与红外的原位动态表征方法,获得纳米结构表界面催化反应的原子/分子尺度理解。近5年来在Nat. Commun.、J. Am. Chem. Soc.、Angew. Chem. Int. Ed.、ACS Catal.Energy Environ. Sci.等国际知名刊物上发表SCI 论文50余篇。主持或参与承担自然科学基金委面上/重点/集成项目,科技部国家重点研发计划,中科院先导项目,中科院-美国能源部交流合作项目等基础科研项目。


本课题组长期诚聘副研究员、助理研究员、博士后、硕博连读研究生,待遇优厚,工作环境优越,欢迎有志于在催化化学、表面科学等领域开展最前沿研究的学生学者加入!有意者请直接与杨帆邮件联系。


发表文章

1.     Ling, Y.; Luo, J.; Ran, Y.; Liu, Z.; Li, W.-X.; Yang, F., Atomic-Scale Visualization of Heterolytic H2 Dissociation and COx Hydrogenation on ZnO under Ambient Conditions. J. Am. Chem. Soc.  2023,145 (41), 22697-22707.

2.     Lan, Y.; Wang, L.; Luo, Y.; Hao, R.; Zhang, H.; Aruta, C.; Yang, F.; Yu, Y.; Yang, N., Engineering Lanthanum into Pt doped CeO2 for Intermediate Temperature Solid Oxide Fuel Cells. J. Eur. Ceram. Soc.  2023,44 (2), 996-1004.

3.     Zhou, Q.; Zhou, Z.; Lu, S.; Wang, L.; Zhan, X.; Peng, H.; Cai, J.; Wang, B.; Han, Y.; Zhao, A.; Tang, S.; Yang, F.; Liu, Z., Increasing reactivity of ceria through water assisted surface modification. Appl. Surf. Sci.  2024,656, 159666.

4.     Deng, X.; Zheng, C.; Li, Y.; Zhou, Z.; Wang, J.; Ran, Y.; Hu, Z.; Yang, F.; Li, L., Conductive catalysis by subsurface transition metals. Nat. Sci. Rev.  2024,11 (1), nwae015.

5.     Zhou, Z.; Chen, L.; Wang, L.; Liu, Y.; Cheng, P.; Peng, H.; Cai, J.; Zhou, Q.; Wang, Y.; Yang, N.; Wang, B.; Gong, X.-Q.; Yang, F.; Liu, Z., Selective Hydrogenation of Propyne to Propene Promoted by Synergistic Effect of Surface Oxygen Vacancies and Hydride Species on Ceria. ACS Catal.  2023,13 (14), 9588-9596.

6.     Zhou, Q.; Akber, H.; Zhao, A.; Yang, F.; Liu, Z., Interaction of water with ceria thin film. ChemCatChem  2023,15 (15), e2023003.

7.     Zhao, L.; Zhang, L.; Wu, Z.; Huang, C.; Chen, K.; Wang, H.; Yang, F., Size Effect of Cu Particles on Interface Formation in Cu/ZnO Catalysts for Methanol Synthesis. Catalysts  2023,13 (8), 1190.

8.     Zang, Y.; Cai, J.; Han, Y.; Wu, H.; Zhu, W.; Shi, S.; Zhang, H.; Ran, Y.; Yang, F.; Ye, M.; Yang, B.; Li, Y.; Liu, Z., CO2 Activation on Ni(111) and Ni(110) Surfaces in the Presence of Hydrogen. J. Phys. Chem. Lett.  2023, 4381-4387.

9.     Wu, M.-Y.; Wang, B.-B.; Wang, W.-W.; Yang, F.; Jia, C.-J., Dynamic Structural Evolution of CeO2 in CuOCeO2 Catalyst Revealed by In Situ Spectroscopy. ChemCatChem  2023,15 (22), e202300894.

10.   Wang, X.; Guo, C.; Zhu, B.; Xiao, D.; Gao, D.; Liu, Z.; Yang, F., Reaction-induced iodine adsorption on Cu surfaces facilitates electrocatalytic CO2 reduction. J. Chem. Phys.  2023,158 (20), 204701.

11.   Li, Z.; Chen, L.; Wu, Z.; Jia, A.; Shi, S.; Zhang, H.; Wang, J.; Liu, Z.; Shao, W.-P.; Yang, F.; Wu, X.-P.; Gong, X.-Q.; Huang, W., Surface Oxygen Vacancy and Hydride Species on Ceria Are Detrimental to Acetylene Semihydrogenation Reaction. ACS Catal.  2023,13, 5213-5224.

12.   Chen, Z.; Wen, J.; Zeng, Y.; Li, M.; Tian, Y.; Yang, F.; Li, M. M.-J.; Chen, P.; Huang, H.; Ye, D.; Chen, L., The origin of the mediocre methanol selectivity of Cu/ZnO-based catalysts for methanol synthesis from CO2 hydrogenation. Appl. Catal. B  2024,340, 123192.

13.   Cai, J.; Ling, Y.; Zhang, H.; Yang, B.; Yang, F.; Liu, Z., Formation of Different Rh–O Species on Rh(110) and Their Reaction with CO. ACS Catal.  2023,13 (1), 11-18.

14.   贾佳; 陆晴; 杨帆, 基于NMF算法的全球碳中和技术领域研究态势分析. 科学观察  2022, 1-23.

15.   Xu, W.; Ni, X.; Zhang, L.; Yang, F.; Peng, Z.; Huang, Y.; Liu, Z., Tuning the electronic structure of tungsten oxide for enhanced hydrogen evolution reaction in alkaline electrolyte. ChemElectroChem  2022,9 (5), e202101300.

16.   Su, X.; Jiang, Z.; Zhou, J.; Liu, H.; Zhou, D.; Shang, H.; Ni, X.; Peng, Z.; Yang, F.; Chen, W.; Qi, Z.; Wang, D.; Wang, Y., Complementary Operando Spectroscopy identification of in-situ generated metastable charge-asymmetry Cu2-CuN3 clusters for CO2 reduction to ethanol. Nat. Commun.  2022,13 (1), 1322.

17.   Sang, J.; Wei, P.; Liu, T.; Lv, H.; Ni, X.; Gao, D.; Zhang, J.; Li, H.; Zang, y.; Yang, F.; Liu, Z.; Wang, G.; Bao, X., A reconstructed Cu2P2O7 catalyst for selective CO2 electroreduction to multicarbon products. Angew. Chem. Int. Ed.  2022,61 (5), e202114238.

18.   Mao, Z.; Ding, C.; Liu, X.; Zhang, Q.; Qin, X.; Li, H.; Yang, F.; Li, Q.; Zhang, X.-G.; Zhang, J.; Cai, W.-B., Interstitial B-Doping in Pt Lattice to Upgrade Oxygen Electroreduction Performance. ACS Catal.  2022, 8848-8856.

19.   Liu, Q.; Li, Y.; Zhao, X.; Zhu, B.; Yi, Z.; Yang, F.; Bao, X., Dynamic structural changes of iron oxide nanostructures on Cu(111). J. Phys. Chem. C  2022,126 (4), 2041-2048.

20.   Liu, K.; Jiang, L.; Huang, W.; Zhu, G.; Zhang, Y.-J.; Xu, C.; Qin, R.; Liu, P.; Hu, C.; Wang, J.; Li, J.-F.; Yang, F.; Fu, G.; Zheng, N., Atomic overlayer of permeable microporous cuprous oxide on palladium promotes hydrogenation catalysis. Nat. Commun.  2022,13 (1), 2597.

21.   Ling, Y.; Ran, Y.; Shao, W.; Li, N.; Jiao, F.; Pan, X.; Fu, Q.; Liu, Z.; Yang, F.; Bao, X., Probing active species for CO hydrogenation over ZnCr2O4 catalysts. Chin. J. Catal.  2022,43 (8), 2017-2025.

22.   Ling, Y.; Luo, J.; Ran, Y.; Cao, Y.; Huang, W.; Cai, J.; Liu, Z.; Li, W.-X.; Yang, F.; Bao, X., Dynamic chemical processes on ZnO surfaces tuned by physisorption under ambient conditions. J. Energy Chem.  2022,72, 258-264.

23.   Li, X.; Zhang, H.; Ran, Y.; Ye, M.; Yang, F.; Han, Y.; Liu, Z., Beam-Induced Effects on Platinum Oxidation during Ambient-Pressure X-ray Photoelectron Spectroscopy. J. Phys. Chem. Lett.  2022, 5677-5682.

24.   Jin, C.; Wang, B.; Zhou, Y.; Yang, F.; Han, S.; Guo, P.; Liu, Z.; Shen, W., Gold Atomic Layers and Isolated Atoms on MoC for the Low-Temperature Water Gas Shift Reaction. ACS Catal.  2022,12 (24), 15648-15657.

25.   Jin, C.; Wang, B.; Zhou, Y.; Yang, F.; Guo, P.; Liu, Z.; Shen, W., Restructuring of the gold-carbide interface for low-temperature water-gas shift. Chem. Comm.  2022,58 (52), 7313-7316.

26.   Huang, W.; Yang, F., Preface to special column on surface & interface chemistry connecting thermo-, photo- and electro-catalysis. Chin. J. Catal.  2022,43 (8), 1963.

27.   Dong, A.; Lin, L.; Mu, R.; Li, R.; Li, K.; Wang, C.; Cao, Y.; Ling, Y.; Chen, Y.; Yang, F.; Pan, X.; Fu, Q.; Bao, X., Modulating the Formation and Evolution of Surface Hydrogen Species on ZnO through Cr Addition. ACS Catal.  2022, 6255-6264.

28.   Zhou, Q.; Cai, J.; Wang, W.; Liu, Z.; Yang, F., In-situ studies of catalytic reactions over well-defined model catalysts. In Catal.,  The Royal Society of Chemistry: 2021; Vol. 33, pp 380-416.

29.   Zhan, X.; Peng, Z.; Huang, H.; Zhang, H.; Liu, Z.; Ou, X.; Yang, F.; Liu, Z., Photoelectrochemical performance enhancement of low-energy Ar+ irradiation modified TiO2. Appl. Surf. Sci.  2021,541, 148527.

30.   Zhan, X.; Luo, Y.; Wang, Z.; Xiang, Y.; Peng, Z.; Han, Y.; Zhang, H.; Chen, R.; Zhou, Q.; Peng, H.; Huang, H.; Liu, W.; Ou, X.; Ma, G.; Fan, F.; Yang, F.; Li, C.; Liu, Z., Formation of multifaceted nano-groove structure on rutile TiO2 photoanode for efficient electron-hole separation and water splitting. J. Energy Chem.  2021,65, 19-25.

31.   Yang, J.; Fu, W.; Chen, C.; Chen, W.; Huang, W.; Yang, R.; Kong, Q.; Zhang, B.; Zhao, J.; Chen, C.; Luo, J.; Yang, F.; Duan, X.; Jiang, Z.; Qin, Y., Atomic design and fine-tuning of subnanometric Pt catalysts to tame hydrogen generation. ACS Catal.  2021,11 (7), 4146-4156.

32.   Wang, Y.; Zhou, Q.; Kang, L.; Yang, L.; Wu, H.; Zhou, Z.; Xiao, C.; Guo, J.; Yang, F.; Zhang, S.; Li, G.; Jin, Y., Oxide-water interaction and wetting property of ceria surfaces tuned by high-temperature thermal aging. Appl. Surf. Sci.  2021,554, 149658.

33.   Wang, Y.; Ren, P.; Hu, J.; Tu, Y.; Gong, Z.; Cui, Y.; Zheng, Y.; Chen, M.; Zhang, W.; Ma, C.; Yu, L.; Yang, F.; Wang, Y.; Bao, X.; Deng, D., Electron penetration triggering interface activity of Pt-graphene for CO oxidation at room temperature. Nat. Commun.  2021,12 (1), 5814.

34.   Wang, B.; Zhang, L.; Cai, J.; Peng, Z.; Cheng, P.; Li, X.; Zhang, H.; Yang, F.; Liu, Z., Formation and activity enhancement of surface hydrides by the metal–oxide interface. Adv. Mater. Int.  2021,8 (7), 2002169.

35.   Li, Y.; Zhao, X.; Cui, Y.; Yang, F.; Bao, X., Oxidation-induced structural transition of two-dimensional iron oxide on Au(111). J. Phys. D: Appl. Phys.  2021,54 (20), 204003.

36.   Huang, W.; Cai, J.; Hu, J.; Zhu, J.; Yang, F.; Bao, X., Atomic structures and electronic properties of Cr-doped ZnO surfaces. Chin. J. Catal.  2021,42 (6), 971-979.

37.   Ding, C.; Mao, Z.; Liang, J.-S.; Qin, X.; Zhang, Q.; Yang, F.; Li, Q.; Cai, W.-B., Aqueous phase approach to Au-modified PtCo/C toward efficient and durable cathode catalyst of PEMFCs. J. Phys. Chem. C  2021,125 (43), 23821-23829.

38.   Zheng, Z.-Y.; Wang, D.; Zhang, Y.; Yang, F.; Gong, X.-Q., Structures and reactivities of the CeO2/Pt(111) reverse catalyst: A DFT+U study. Chin. J. Catal.  2020,41 (9), 1360-1368.

39.   Wang, B.; Zhang, H.; Xu, W.; Li, X.; Wang, W.; Zhang, L.; Li, Y.; Peng, Z.; Yang, F.; Liu, Z., Nature of active sites on Cu-CeO2 catalysts activated by high-temperature thermal aging. ACS Catal.  2020,10 (21), 12385-12392.

40.   Li, Y.; Yang, B.; Xia, M.; Yang, F.; Bao, X., Oxidation-induced segregation of FeO on the Pd-Fe alloy. Appl. Surf. Sci.  2020,525, 146484.

41.   Li, Y.; Chen, H.; Wang, W.; Huang, W.; Ning, Y.; Liu, Q.; Cui, Y.; Han, Y.; Liu, Z.; Yang, F.; Bao, X., Crystal-plane-dependent redox reaction on Cu surfaces. Nano Res.  2020,13 (6), 1677-1685.

42.   Huang, W.; Liu, Q.; Zhou, Z.; Li, Y.; Ling, Y.; Wang, Y.; Tu, Y.; Wang, B.; Zhou, X.; Deng, D.; Yang, B.; Yang, Y.; Liu, Z.; Bao, X.; Yang, F., Tuning the activities of cuprous oxide nanostructures via the oxide-metal interaction. Nat. Commun.  2020,11 (1), 2312.

43.   Cao, Y.; Luo, J.; Huang, W.; Ling, Y.; Zhu, J.; Li, W.-X.; Yang, F.; Bao, X., Probing surface defects of ZnO using formaldehyde. J. Chem. Phys.  2020,152 (7), 074714.

44.   Zhou, Z.; Liu, P.; Yang, F.; Bao, X., Interface-confined triangular FeOx nanoclusters on Pt(111). J. Chem. Phys.  2019,151 (21), 214704.

45.   Zhang, Y.; Yang, F.; Bao, X., Growth and structures of monolayer and bilayer CeOx nanostructures on Au(111). Surf. Sci.  2019,679, 31-36.

46.   Zhang, Y.; Feng, W.; Yang, F.; Bao, X., Interface-controlled synthesis of CeO2(111) and CeO2(100) and their structural transition on Pt(111). Chin. J. Catal.  2019,40 (2), 204-213.

47.   Wu, H.; Fu, Q.; Li, Y.; Cui, Y.; Wang, R.; Su, N.; Lin, L.; Dong, A.; Ning, Y.; Yang, F.; Bao, X., Controlled growth of uniform two-dimensional ZnO overlayers on Au(111) and surface hydroxylation. Nano Res.  2019,12 (9), 2348-2354.

48.   Song, Y.; Zhou, S.; Dong, Q.; Li, Y.; Zhang, X.; Ta, N.; Liu, Z.; Zhao, J.; Yang, F.; Wang, G.; Bao, X., Oxygen evolution reaction over the Au/YSZ Interface at high temperature. Angew. Chem. Int. Ed.  2019,58 (14), 4617-4621.

49.   Song, Y.; Lin, L.; Feng, W.; Zhang, X.; Dong, Q.; Li, X.; Lv, H.; Liu, Q.; Yang, F.; Liu, Z.; Wang, G.; Bao, X., Interfacial enhancement by r-Al2O3 of electrochemical oxidative dehydrogenation of ethane to ethylene in solid oxide electrolysis cells. Angew. Chem. Int. Ed.  2019,58 (45), 16043-16046.

50.   Liu, Q.; Huang, W.; Yang, F.; Bao, X., Interface-controlled two-dimensional cuprous oxide structures. Scientia Sinica Chimica  2019,49 (3), 556-563.

51.   Li, Y.; Hu, J.; Xu, J.; Zheng, Y.; Chen, M.; Wan, H.; Fu, Q.; Yang, F.; Bao, X., Activation of CO and surface carbon species for conversion of syngas to light olefins on ZnCrOx-Al2O3 catalysts. Appl. Surf. Sci.  2019,494, 353-360.

52.   Jin, R.; Peng, M.; Li, A.; Deng, Y.; Jia, Z.; Huang, F.; Ling, Y.; Yang, F.; Fu, H.; Xie, J.; Han, X.; Xiao, D.; Jiang, Z.; Liu, H.; Ma, D., Low temperature oxidation of ethane to oxygenates by oxygen over iridium-cluster catalysts. J. Am. Chem. Soc.  2019,141 (48), 18921-18925.

53.   Gan, J.; Luo, W.; Chen, W.; Guo, J.; Xiang, Z.; Chen, B.; Yang, F.; Cao, Y.; Song, F.; Duan, X.; Zhou, X., Mechanistic understanding of size-dependent oxygen reduction actvity and selectivity over Pt/CNT nanocatalysts. Eur. J. Inorg. Chem.  2019,2019 (27), 3210-3217.

54.   Cui, X.; Su, H.-Y.; Chen, R.; Yu, L.; Dong, J.; Ma, C.; Wang, S.; Li, J.; Yang, F.; Xiao, J.; Zhang, M.; Ma, D.; Deng, D.; Zhang, D. H.; Tian, Z.; Bao, X., Room-temperature electrochemical water–gas shift reaction for high purity hydrogen production. Nat. Commun.  2019,10 (1), 86.

55.   Chen, H.; Wang, R.; Huang, R.; Zhao, C.; Li, Y.; Gong, Z.; Yao, Y.; Cui, Y.; Yang, F.; Bao, X., Surface and subsurface structures of the Pt-Fe surface alloy on Pt(111). J. Phys. Chem. C  2019,123 (28), 17225-17231.

56.   Chen, H.; Lin, L.; Li, Y.; Wang, R.; Gong, Z.; Cui, Y.; Li, Y.; Liu, Y.; Zhao, X.; Huang, W.; Fu, Q.; Yang, F.; Bao, X., CO and H2 activation over g-ZnO layers and w-ZnO(0001). ACS Catal.  2019,9 (2), 1373-1382.

57.   Zhao, X.; Chen, H.; Wu, H.; Wang, R.; Cui, Y.; Fu, Q.; Yang, F.; Bao, X., Growth of ordered ZnO structures on Au(111) and Cu(111). Acta Phys. -Chim. Sin.  2018,34 (12), 1373-1380.

58.   Yang, F.; Liu, Y.; Bao, X., Scanning probe microscopy and nano-spectroscopy. In Modern Methods in Catalysis Research,  Xin, Q.; Luo, M.; Xu, J., Eds. Science Press: Beijing, 2018; pp 885-946.

59.   Yan, C.; Li, H.; Ye, Y.; Wu, H.; Cai, F.; Si, R.; Xiao, J.; Miao, S.; Xie, S.; Yang, F.; Li, Y.; Wang, G.; Bao, X., Coordinatively unsaturated nickel-nitrogen sites towards selective and high-rate CO2 electroreduction. Energy Environ. Sci.  2018,11 (5), 1204-1210.

60.   Liu, Q.; Ning, Y.; Huang, W.; Fu, Q.; Yang, F.; Bao, X., Origin of the thickness-dependent oxidation of ultrathin Cu films on Au(111). J. Phys. Chem. C  2018,122 (15), 8364-8372.

61.   Liu, Q.; Han, Y.; Cao, Y.; Li, X.; Huang, W.; Yu, Y.; Yang, F.; Bao, X.; Li, Y.; Liu, Z., In-situ APXPS and STM study of the activation of H2 on ZnO(10-10) surface. Acta Phys. -Chim. Sin.  2018,34 (12), 1366-1372.

62.   Liu, Q.; Han, N.; Zhang, S.; Zhao, J.; Yang, F.; Bao, X., Tuning the structures of two-dimensional cuprous oxide confined on Au(111). Nano Res.  2018,11 (11), 5957-5967.

63.   Jiang, X.; Li, H.; Xiao, J.; Gao, D.; Si, R.; Yang, F.; Li, Y.; Wang, G.; Bao, X., Carbon dioxide electroreduction over imidazolate ligands coordinated with Zn(II) center in ZIFs. Nano Energy  2018,52, 345-350.

64.   Cui, X.; Li, H.; Wang, Y.; Hu, Y.; Hua, L.; Li, H.; Han, X.; Liu, Q.; Yang, F.; He, L.; Chen, X.; Li, Q.; Xiao, J.; Deng, D.; Bao, X., Room-temperature methane conversion by graphene-confined single iron atoms. Chem  2018,4 (8), 1902-1910.

65.   Zhao, G.; Yang, F.; Chen, Z.; Liu, Q.; Ji, Y.; Zhang, Y.; Niu, Z.; Mao, J.; Bao, X.; Hu, P.; Li, Y., Metal/oxide interfacial effects on the selective oxidation of primary alcohols. Nat. Commun.  2017,8, 14039.

66.   Liu, Y.; Yang, F.; Zhang, Y.; Xiao, J.; Yu, L.; Liu, Q.; Ning, Y.; Zhou, Z.; Chen, H.; Huang, W.; Liu, P.; Bao, X., Enhanced oxidation resistance of active nanostructures via dynamic size effect. Nat. Commun.  2017,8, 14459.

67.   Liu, Y.; Yang, F.; Ning, Y.; Liu, Q.; Zhang, Y.; Chen, H.; Bao, X., CO adsorption on a Pt(111) surface partially covered with FeOx nanostructures. J. Energy Chem.  2017,26 (4), 602-607.

68.   Liu, Y.; Ning, Y.; Yu, L.; Zhou, Z.; Liu, Q.; Zhang, Y.; Chen, H.; Xiao, J.; Liu, P.; Yang, F.; Bao, X., Structure and electronic properties of Interface-confined oxide nanostructures. ACS Nano  2017,11 (11), 11449-11458.

69.   Liu, Q.; Liu, Y.; Li, H.; Li, L.; Deng, D.; Yang, F.; Bao, X., Towards the atomic-scale characterization of isolated iron sites confined in a nitrogen-doped graphene matrix. Appl. Surf. Sci.  2017,410, 111-116.

70.   Gao, D.; Zhou, H.; Cai, F.; Wang, D.; Hu, Y.; Jiang, B.; Cai, W.-B.; Chen, X.; Si, R.; Yang, F.; Miao, S.; Wang, J.; Wang, G.; Bao, X., Switchable CO2 electroreduction via engineering active phases of Pd nanoparticles. Nano Res.  2017,10 (6), 2181-2191.

71.   Gao, D.; Zhang, Y.; Zhou, Z.; Cai, F.; Zhao, X.; Huang, W.; Li, Y.; Zhu, J.; Liu, P.; Yang, F.; Wang, G.; Bao, X., Enhancing CO2 electroreduction with the metal-oxide interface. J. Am. Chem. Soc.  2017,139 (16), 5652-5655.

72.   Chen, H.; Liu, Y.; Yang, F.; Wei, M.; Zhao, X.; Ning, Y.; Liu, Q.; Zhang, Y.; Fu, Q.; Bao, X., Active phase of FeOx/Pt catalysts in low-temperature CO oxidation and preferential oxidation of CO reaction. J. Phys. Chem. C  2017,121 (19), 10398-10405.

73.  Cai, F.; Gao, D.; Zhou, H.; Wang, G.; He, T.; Gong, H.; Miao, S.; Yang, F.; Wang, J.; Bao, X., Electrochemical promotion of catalysis over Pd nanoparticles for CO2 reduction. Chem. Sci.  2017,8 (4), 2569-2573. 


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