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合作作者[TOP 5]

  • 周佳寅

    合作成果数:11

  • 倪纪弘

    合作成果数:9

  • 汤祖建

    合作成果数:8

  • 杨波

    合作成果数:5

  • 周琮泉

    合作成果数:5

访问统计


  总访问量
 1258
  访问来源
    内部: 36
    外部: 1222
    国内: 1061
    国外: 197

  年访问量
 196
  访问来源
    内部: 1
    外部: 195
    国内: 183
    国外: 13

  月访问量
 2
  访问来源
    内部: 0
    外部: 2
    国内: 2
    国外: 0

访问量

访问量

1. Extraction and Recycling of Battery Materials [2545]
2. Toward Resources and Processes Sustainability: Part II [1486]
3. Recycling the cathode materials of spent Li-ion batteries in a H-S.. [957]
4. Toward Resources and Processes Sustainability: Part I [929]
5. Combining electrolysis with thermocatalysis for dry reforming of m.. [610]
6. 一种催化剂及其制备方法与应用 [592]
7. 一种从工业废气或空气中捕集二氧化碳的电解装置及方法 [587]
8. Resistivity modulation of perovskite samarium nickelate with high-.. [585]
9. Iron Sulfide Formation on Iron Substrates by Electrochemical React.. [542]
10. 一种用于甲烷干重整反应的反应体系 [542]
11. Thin-film samarium nickelate as a potential material for methane s.. [502]
12. The critical role of H2 reduction roasting for enhancing the recyc.. [452]
13. 一种回收锂离子电池正极材料中金属元素的方法和回收系统 [423]
14. 一种常压下催化合成氨的方法 [393]
15. 一种回收利用废旧锂电池正极材料中金属元素的方法 [392]
16. 一种基于镍酸钐薄膜材料的甲烷传感器 [390]
17. 基于液态合金催化合成氨的方法 [360]
18. Methane dry reforming in a coking- and sintering-free liquid alloy.. [356]
19. 一种回收利用废旧电池正极材料中金属元素的方法 [356]
20. 一种电催化合成氨的反应体系及其方法 [351]
21. 一种烃类原料高效转化的方法及其装置 [341]
22. 一种常压下催化合成氨的方法 [316]
23. Molten multi-phase catalytic system comprising Li-Zn alloy and LiC.. [310]
24. 一种烃类原料高效转化的方法及其装置 [305]
25. Harnessing electrochemical pH gradient for direct air capture with.. [295]
26. Without that crystalline touch [294]
27. Recycling the waste LiMn2O4 of spent Li-ion batteries by pH gradie.. [284]
28. 基于碱金属氯化物水溶液电解反应的回收利用废旧电池正极材料中金属元素.. [282]
29. Lithium-based Loop for Ambient-Pressure Ammonia Synthesis in a Liq.. [264]
30. Preparation of the LiGa Intermetallic Alloy by Electrochemical or .. [257]
31. METHOD FOR CATALYTICALLY SYNTHESIZING AMMONIA AT ATMOSPHERIC PRESS.. [255]
32. Closed-Loop and Precipitation-Free CO2 Capture Process Enabled by .. [251]
33. Lithium Extraction from Molten LiOH by Using a Liquid Tin Cathode [248]
34. Methane Decomposition Enabled by Molten Alkali Chloride Electrolys.. [71]
35. Recycling Positive Electrode Materials of Li-Ion Batteries by Crea.. [18]
36. Ethane Decomposition in a Molten Alkali Halide Electrochemical Sys.. [8]

下载量

1. Extraction and Recycling of Battery Materials [673]
2. Toward Resources and Processes Sustainability: Part I [247]
3. Toward Resources and Processes Sustainability: Part II [241]
4. Recycling the cathode materials of spent Li-ion batteries in a H-S.. [21]
5. Iron Sulfide Formation on Iron Substrates by Electrochemical React.. [15]
6. Methane dry reforming in a coking- and sintering-free liquid alloy.. [7]
7. 一种从工业废气或空气中捕集二氧化碳的电解装置及方法 [6]
8. Closed-Loop and Precipitation-Free CO2 Capture Process Enabled by .. [6]
9. Molten multi-phase catalytic system comprising Li-Zn alloy and LiC.. [5]
10. Without that crystalline touch [5]
11. Combining electrolysis with thermocatalysis for dry reforming of m.. [4]
12. Resistivity modulation of perovskite samarium nickelate with high-.. [4]
13. The critical role of H2 reduction roasting for enhancing the recyc.. [4]
14. Thin-film samarium nickelate as a potential material for methane s.. [3]
15. Recycling the waste LiMn2O4 of spent Li-ion batteries by pH gradie.. [3]
16. Recycling Positive Electrode Materials of Li-Ion Batteries by Crea.. [3]
17. 一种回收利用废旧锂电池正极材料中金属元素的方法 [2]
18. 基于碱金属氯化物水溶液电解反应的回收利用废旧电池正极材料中金属元素.. [2]
19. Methane Decomposition Enabled by Molten Alkali Chloride Electrolys.. [2]
20. Ethane Decomposition in a Molten Alkali Halide Electrochemical Sys.. [2]
21. 一种回收利用废旧电池正极材料中金属元素的方法 [1]
22. 一种回收锂离子电池正极材料中金属元素的方法和回收系统 [1]
23. Preparation of the LiGa Intermetallic Alloy by Electrochemical or .. [1]