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成果统计

合作作者[TOP 5]

  • 刘志

    合作成果数:22

  • Zhang, Hui

    合作成果数:14

  • 李毅敏

    合作成果数:12

  • 蔡军

    合作成果数:8

  • Liu, Zhi

    合作成果数:8

访问统计


  总访问量
 1280
  访问来源
    内部: 8
    外部: 1272
    国内: 1030
    国外: 250

  年访问量
 145
  访问来源
    内部: 0
    外部: 145
    国内: 131
    国外: 14

  月访问量
 0
  访问来源
    内部: 0
    外部: 0
    国内: 0
    国外: 0

访问量

访问量

1. Observing the Electrochemical Oxidation of Co Metal at the Solid/L.. [2305]
2. Strong Interface Enhanced Hydrogen Evolution over Molybdenum-Based.. [1327]
3. An APXPS endstation for gas-solid and liquid-solid interface studi.. [1156]
4. Role of Manganese Oxide in Syngas Conversion to Light Olefins [1132]
5. In-situ APXPS and STM Study of the Activation of H-2 on ZnO(10(1)o.. [1054]
6. Surface Plasmon Enabling Nitrogen Fixation in Pure Water through a.. [1045]
7. Direct Production of Lower Olefins from CO2 Conversion via Bifunct.. [1010]
8. In Situ Characterization of Catalysis and Electrocatalysis Using A.. [900]
9. Rationally designed indium oxide catalysts for CO2 hydrogenation t.. [858]
10. 基于中能X射线的电催化基础研究:用于电化学体系中液/固和气/固界面原位.. [847]
11. CO2 Activation on Ni(111) and Ni(100) Surfaces in the Presence of .. [807]
12. CO2 Activation on Cobalt Surface in the Presence of H2O: An Ambien.. [794]
13. 金属载体相互作用对CeO_2纳米棒热稳定性影响的初步研究 [747]
14. A spectroscopic study of the mechanism of Au(III) (hydro-)oxides i.. [741]
15. Formation of multifaceted nano-groove structure on rutile TiO2 pho.. [624]
16. Surface Orientation and Pressure Dependence of CO2 Activation on C.. [601]
17. Understanding fundamentals of electrochemical reactions with tende.. [572]
18. Ambient pressure mapping of resonant Auger spectroscopy at BL02B01.. [571]
19. Crystal-plane-dependent redox reaction on Cu surfaces [535]
20. In Situ Spectroscopic Identification of the Electron-Transfer Inte.. [532]
21. CO2 Activation on Ni(111) and Ni(110) Surfaces in the Presence of .. [514]
22. Combination of a reaction cell and an ultra-high vacuum system for.. [481]
23. New ambient pressure X-ray photoelectron spectroscopy facilities f.. [439]
24. Origin of the Liquid/Gaseous Water Binding Energy Splitting Measur.. [431]
25. Increasing reactivity of ceria through water assisted surface modi.. [388]
26. Direct observation of hydration of a Nafion membrane using APXPS a.. [341]
27. Pt(110)表面催化CO氧化反应原位研究 [314]
28. 金属载体相互作用对CeO2纳米棒热稳定性影响的初步研究 [312]
29. Beam-Induced Effects on Platinum Oxidation during Ambient-Pressure.. [295]
30. 电化学界面的近常压X射线光电子能谱测试系统及方法 [294]
31. Direct Work Function Measurement Using in-situ Ambient Pressure X-.. [289]
32. 利用原位APXPS与STM研究H2在ZnO(1010)表面的活化 [285]
33. Ambient Pressure X-ray Photoelectron Spectroscopy Study of Oxidati.. [264]
34. Identification of Active Phase for Complete Oxidation of Methane o.. [261]
35. 一种用于近常压X射线光电子能谱原位测试的电化学流动池装置及方法 [81]
36. In situ Detection of the Molecule-Crowded Aqueous Electrode-Electr.. [42]
37. Elucidating Raman Auger Behavior in Cu, Cu2O and CuO by.. [24]
38. 一种用于超快X射线光电子能谱中泵浦激光和X射线自由电子激光的合束装置.. [21]

下载量

1. Observing the Electrochemical Oxidation of Co Metal at the Solid/L.. [461]
2. A spectroscopic study of the mechanism of Au(III) (hydro-)oxides i.. [214]
3. Rationally designed indium oxide catalysts for CO2 hydrogenation t.. [210]
4. Surface Plasmon Enabling Nitrogen Fixation in Pure Water through a.. [41]
5. Strong Interface Enhanced Hydrogen Evolution over Molybdenum-Based.. [18]
6. An APXPS endstation for gas-solid and liquid-solid interface studi.. [17]
7. In Situ Characterization of Catalysis and Electrocatalysis Using A.. [14]
8. Increasing reactivity of ceria through water assisted surface modi.. [7]
9. In-situ APXPS and STM Study of the Activation of H-2 on ZnO(10(1)o.. [6]
10. 基于中能X射线的电催化基础研究:用于电化学体系中液/固和气/固界面原位.. [6]
11. Ambient pressure mapping of resonant Auger spectroscopy at BL02B01.. [5]
12. Surface Orientation and Pressure Dependence of CO2 Activation on C.. [5]
13. 电化学界面的近常压X射线光电子能谱测试系统及方法 [5]
14. CO2 Activation on Ni(111) and Ni(100) Surfaces in the Presence of .. [4]
15. Direct observation of hydration of a Nafion membrane using APXPS a.. [4]
16. Identification of Active Phase for Complete Oxidation of Methane o.. [4]
17. 一种用于近常压X射线光电子能谱原位测试的电化学流动池装置及方法 [4]
18. Formation of multifaceted nano-groove structure on rutile TiO2 pho.. [3]
19. Combination of a reaction cell and an ultra-high vacuum system for.. [3]
20. Direct Work Function Measurement Using in-situ Ambient Pressure X-.. [3]
21. In situ Detection of the Molecule-Crowded Aqueous Electrode-Electr.. [3]
22. 金属载体相互作用对CeO2纳米棒热稳定性影响的初步研究 [2]
23. Ambient Pressure X-ray Photoelectron Spectroscopy Study of Oxidati.. [2]
24. 一种用于超快X射线光电子能谱中泵浦激光和X射线自由电子激光的合束装置.. [2]
25. Role of Manganese Oxide in Syngas Conversion to Light Olefins [1]
26. Direct Production of Lower Olefins from CO2 Conversion via Bifunct.. [1]
27. 金属载体相互作用对CeO_2纳米棒热稳定性影响的初步研究 [1]
28. Understanding fundamentals of electrochemical reactions with tende.. [1]
29. Pt(110)表面催化CO氧化反应原位研究 [1]
30. In Situ Spectroscopic Identification of the Electron-Transfer Inte.. [1]
31. CO2 Activation on Ni(111) and Ni(110) Surfaces in the Presence of .. [1]
32. Elucidating Raman Auger Behavior in Cu, Cu2O and CuO by.. [1]