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1. A simple route to synthesize size-controlled Ag2S core-shell nanoc.. [574]
2. Fabrication of copper sulfide hierarchical architectures with tuna.. [418]
3. Ionothermal synthesis of bismuth sulfide nanostructures and their .. [377]
4. Thermal conductivity and rheological properties of graphite/oil na.. [364]
5. 单源前驱体法制备金属硫化物纳米材料及其尺寸和形貌的控制研究 [357]
6. MoS2/WS2 Quantum Dots as High-Performance Lubricant Additive in Po.. [328]
7. Mass-synthesized anatase titania nanocrystals with tunable size an.. [320]
8. A gel-sol transition phenomenon of oxidation multi-walled carbon n.. [316]
9. Relationship between dispersion state and reinforcement effect of .. [308]
10. 硫化铋纳米材料的制备方法 [303]
11. Controlled synthesis and size-dependent thermal conductivity of Fe.. [301]
12. Ionic liquid-based stable nanofluids containing gold nanoparticles [288]
13. Gold-ionic liquid nanofluids with preferably tribological properti.. [266]
14. Investigating the tribological behavior of PEGylated MoS2 nanocomp.. [266]
15. Surface Modification of MoS2 Nanosheets as Effective Lubricant Add.. [265]
16. Rheological and tribological properties of Ionic liquid-based nano.. [259]
17. Reduced graphene oxides by microwave-assisted ionothermal treatmen.. [250]
18. 硫化物半导体纳米线的制备方法 [247]
19. 半导体纳米复合薄膜的制备方法 [242]
20. Novel Single-Source Precursors Approach to Prepare Highly Uniform .. [236]
21. Viscosity modification of lubricating oil based on high-concentrat.. [215]
22. Exploring the effect of nanoparticle size on the tribological prop.. [211]
23. Mechanical synthesis of chemically bonded phosphorus–graphene hyb.. [198]
24. Tribological evaluation of environmentally friendly ionic liquids .. [176]
25. Cu nanoparticles decorated WS2 nanosheets as a lubricant additive .. [144]
26. Investigation on tribological behaviors of MoS2 and WS2 quantum do.. [138]
27. Stable blue- and green-emitting zinc oxide from ionic liquid cryst.. [132]
28. 偏苯三酸酯基础油的摩擦降解及对抗氧化性能的影响 [130]
29. Preparation of WS2 nanocomposites via mussel-inspired chemistry an.. [125]
30. An efficient catalyst COK-15b for the catalytic synthesis of lubri.. [119]
31. Pentaerythritol rosin ester as an environmentally friendly multifu.. [108]
32. Size control of monodisperse copper sulfide faceted nanocrystals a.. [104]
33. The mechanisms of 5-FU-PLA-O-CMC-NPS-mediated inhibition of the pr.. [102]
34. 有机-无机复合CdS纳米晶的制备及表征 [94]
35. Synthesis of high-luminescent cadmium sulfide nanocrystallites by .. [87]
36. Synthesis and evaluation of a protic ionic liquid as a multifuncti.. [83]
37. 修饰剂链长变化对核壳结构CdS纳米晶尺寸和光学性质的影响 [78]
38. MoS2 nanoparticles grown on carbon nanomaterials for lubricating o.. [74]
39. Size-controlled synthesis of orderly organized cube-shaped lead su.. [72]
40. 高氧化安定性植物基润滑油的制备与性能研究 [71]
41. Synthesis and investigation of phosphorus-free ionic liquids as mu.. [64]
42. 润滑油高温氧化结焦评价装置 [52]
43. Nanosized molybdenum disulfide on surface-modified carbon material.. [50]
44. 纳米二氧化硅做稠化剂时添加量对润滑脂流变学行为及摩擦学性能的影响 [39]
45. 快速测定在用润滑油脂铁磁性磨损颗粒含量的装置 [32]
46. Effect of base oil on rheological behaviors and tribological prope.. [31]
47. Rheological behaviors and tribological properties of nano-silica g.. [27]
48. 1. Viscosity Variations and Tribological Performances of Oleylamin.. [24]
49. 一种电磁摩擦磨损试验装置 [24]
50. Effect of temperature on rheological behaviors and tribological pr.. [23]

Downloads

1. Thermal conductivity and rheological properties of graphite/oil na.. [22]
2. Investigating the tribological behavior of PEGylated MoS2 nanocomp.. [15]
3. Rheological and tribological properties of Ionic liquid-based nano.. [9]
4. Surface Modification of MoS2 Nanosheets as Effective Lubricant Add.. [9]
5. Viscosity modification of lubricating oil based on high-concentrat.. [8]
6. Exploring the effect of nanoparticle size on the tribological prop.. [8]
7. MoS2/WS2 Quantum Dots as High-Performance Lubricant Additive in Po.. [8]
8. Tribological evaluation of environmentally friendly ionic liquids .. [8]
9. Fabrication of copper sulfide hierarchical architectures with tuna.. [7]
10. Mass-synthesized anatase titania nanocrystals with tunable size an.. [7]
11. A gel-sol transition phenomenon of oxidation multi-walled carbon n.. [7]
12. Ionic liquid-based stable nanofluids containing gold nanoparticles [6]
13. Controlled synthesis and size-dependent thermal conductivity of Fe.. [6]
14. Relationship between dispersion state and reinforcement effect of .. [5]
15. 半导体纳米复合薄膜的制备方法 [5]
16. 硫化铋纳米材料的制备方法 [4]
17. Mechanical synthesis of chemically bonded phosphorus–graphene hyb.. [4]
18. 偏苯三酸酯基础油的摩擦降解及对抗氧化性能的影响 [4]
19. Preparation of WS2 nanocomposites via mussel-inspired chemistry an.. [4]
20. Gold-ionic liquid nanofluids with preferably tribological properti.. [3]
21. Ionothermal synthesis of bismuth sulfide nanostructures and their .. [3]
22. Pentaerythritol rosin ester as an environmentally friendly multifu.. [3]
23. Investigation on tribological behaviors of MoS2 and WS2 quantum do.. [3]
24. Stable blue- and green-emitting zinc oxide from ionic liquid cryst.. [2]
25. A simple route to synthesize size-controlled Ag2S core-shell nanoc.. [2]
26. 硫化物半导体纳米线的制备方法 [2]
27. Reduced graphene oxides by microwave-assisted ionothermal treatmen.. [2]
28. Size control of monodisperse copper sulfide faceted nanocrystals a.. [2]
29. Novel Single-Source Precursors Approach to Prepare Highly Uniform .. [2]
30. Cu nanoparticles decorated WS2 nanosheets as a lubricant additive .. [2]
31. Nanosized molybdenum disulfide on surface-modified carbon material.. [2]
32. Synthesis of high-luminescent cadmium sulfide nanocrystallites by .. [1]
33. Size-controlled synthesis of orderly organized cube-shaped lead su.. [1]
34. 有机-无机复合CdS纳米晶的制备及表征 [1]
35. The mechanisms of 5-FU-PLA-O-CMC-NPS-mediated inhibition of the pr.. [1]
36. An efficient catalyst COK-15b for the catalytic synthesis of lubri.. [1]
37. Synthesis and evaluation of a protic ionic liquid as a multifuncti.. [1]