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1. Influence of lubricant filling on the dry sliding wear behaviors o.. [586]
2. A facile method for imparting superoleophobicity to polymer substr.. [559]
3. Robust superhydrophobic surfaces with mechanical durability and ea.. [541]
4. Tribological Behaviors of Hybrid PTFE/Nomex Fabric/Phenolic Compos.. [499]
5. 特殊润湿性表面材料的制备及其功能化研究 [498]
6. A versatile approach to produce superhydrophobic materials used fo.. [494]
7. Combined effect of air-plasma treatment and lubricant filling on t.. [492]
8. Sliding wear behaviors of Nomex fabric/phenolic composite under dr.. [440]
9. Facile Fabrication of Superhydrophobic Sponge with Selective Absor.. [438]
10. High-temperature tribological performance of hybrid PTFE/Nomex fab.. [428]
11. Robust and Durable Superhydrophobic Cotton Fabrics for Oil/Water S.. [424]
12. A graphene coated cotton for oil/water separation [424]
13. Sprayed superamphiphobic coatings on copper substrate with enhance.. [410]
14. 一种透明超双疏涂层的制备方法 [409]
15. Influence of functional graphene as filler on the tribological beh.. [407]
16. A superhydrophobic/superoleophilic sponge for the selective absorp.. [404]
17. Fabrication of a superhydrophobic carbon nanotube coating with goo.. [383]
18. Facile fabrication of a superamphiphobic surface on the copper sub.. [379]
19. Designing transparent superamphiphobic coatings directed by carbon.. [352]
20. Fabrication of Bionic Superhydrophobic Manganese Oxide/Polystyrene.. [349]
21. Facile fabrication of recoverable and stable superhydrophobic poly.. [346]
22. A novel superhydrophobic bulk material [338]
23. Fabrication of super-repellent cotton textiles with rapid reversib.. [335]
24. Rapid and reversible switching between superoleophobicity and supe.. [334]
25. Superhydrophilic-superoleophobic coatings [332]
26. A magnetically superhydrophobic bulk material for oil removal [331]
27. Facile fabrication of a superhydrophobic fabric with mechanical st.. [298]
28. Facile fabrication of superoleophobic surfaces with enhanced corro.. [288]
29. A simple approach to fabricate regenerable superhydrophobic coatin.. [286]
30. Rapid control of switchable oil wettability and adhesion on the co.. [282]
31. A facile route to mechanically durable responsive surfaces with re.. [281]
32. Reversible Switching of Surface Wettability and Water Adhesion on .. [279]
33. Plasma/thermal-driven the rapid wettability transition on a copper.. [276]
34. Rapid Formation of Superhydrophobic Surfaces with Fast Response We.. [275]
35. Fabrication of superhydrophobic polyaniline films with rapidly swi.. [267]
36. Effect of Different Functional Carbon Nanotubes on the Tribologica.. [266]
37. A simple approach to fabricate superoleophobic coatings [249]
38. Fabrication of an intelligent superhydrophobic surface based on Zn.. [248]
39. Superamphiphobic self-assembled monolayer of thiol on the structur.. [240]
40. Thermo-responsive surface wettability on a pristine carbon nanotub.. [234]
41. Fabrication of superhydrophobic binary nanoparticles/PMMA composit.. [229]
42. Fabrication of hierarchical structures on alumina plate and its no.. [222]
43. Counterion exchange to achieve reversibly switchable hydrophobicit.. [219]
44. Study of the corrosion resistance and loading capacity of superhyd.. [217]
45. Hybrid Fabric/Molybdic Acid-Modified Phenolic Resin Composites wit.. [213]
46. Superoleophobic textured aluminum surfaces [194]
47. Versatile fabrication of magnetic carbon fiber aerogel applied for.. [182]
48. Influence of air-plasma treatment and hexagonal boron nitride as f.. [179]
49. Tribological Behaviors of Polyurethane Composite Coatings Filled w.. [168]
50. Switchable adhesion of superhydrophobic ZnO nanorod film [156]
51. One-step spraying to fabricate nonfluorinated superhydrophobic coa.. [152]
52. The effect of oil fouling on the mechanical and tribological prope.. [150]
53. Tribological Behaviors of Molybdic Acid-Modified Phenolic/Polyfluo.. [146]
54. Effect of MWCNTs-GO hybrids on tribological performance of hybrid .. [145]
55. Spray-coated superhydrophobic coatings with regenerability [143]
56. A waterproofing textile with robust superhydrophobicity in either .. [130]
57. Facile fabrication of superhydrophobic sand: Potential advantages .. [125]
58. WS2-Filled Hybrid PTFE/Nomex Fabric Composites with Improved Anti-.. [116]
59. Reversible superhydrophobicity to superhydrophilicity switching of.. [111]
60. Novel transparent, liquid-repellent smooth surfaces with mechanica.. [111]
61. Versatile fabrication of magnetic superhydrophobic foams and appli.. [108]
62. A superhydrophobic copper mesh as an advanced platform for oil-wat.. [100]
63. Reversible conversion of water-droplet mobility from rollable to p.. [99]
64. The efficient separation of surfactant-stabilized water-in-oil emu.. [95]
65. A superhydrophobic monolithic material with tunable wettability fo.. [93]
66. Fabrication of superhydrophobic Cu-BiOBr surface for oil/water sep.. [88]
67. A facile method for imparting superoleophobicity to polymer substr.. [81]
68. Fabrication of a superhydrophobic coating with high adhesive effec.. [72]
69. A facile way to fabricate a superamphiphobic surface [64]

Downloads

1. Robust and Durable Superhydrophobic Cotton Fabrics for Oil/Water S.. [8]
2. Robust superhydrophobic surfaces with mechanical durability and ea.. [7]
3. Facile fabrication of recoverable and stable superhydrophobic poly.. [7]
4. Facile Fabrication of Superhydrophobic Sponge with Selective Absor.. [7]
5. Influence of functional graphene as filler on the tribological beh.. [7]
6. A magnetically superhydrophobic bulk material for oil removal [7]
7. Influence of lubricant filling on the dry sliding wear behaviors o.. [7]
8. 一种透明超双疏涂层的制备方法 [7]
9. A facile method for imparting superoleophobicity to polymer substr.. [6]
10. Sliding wear behaviors of Nomex fabric/phenolic composite under dr.. [6]
11. Facile fabrication of a superamphiphobic surface on the copper sub.. [5]
12. Hybrid Fabric/Molybdic Acid-Modified Phenolic Resin Composites wit.. [5]
13. Fabrication of superhydrophobic polyaniline films with rapidly swi.. [4]
14. Fabrication of Bionic Superhydrophobic Manganese Oxide/Polystyrene.. [4]
15. Fabrication of super-repellent cotton textiles with rapid reversib.. [4]
16. Combined effect of air-plasma treatment and lubricant filling on t.. [4]
17. High-temperature tribological performance of hybrid PTFE/Nomex fab.. [4]
18. Tribological Behaviors of Hybrid PTFE/Nomex Fabric/Phenolic Compos.. [4]
19. A novel superhydrophobic bulk material [3]
20. A graphene coated cotton for oil/water separation [3]
21. A versatile approach to produce superhydrophobic materials used fo.. [3]
22. Tribological Behaviors of Polyurethane Composite Coatings Filled w.. [3]
23. A waterproofing textile with robust superhydrophobicity in either .. [3]
24. Plasma/thermal-driven the rapid wettability transition on a copper.. [2]
25. Superoleophobic textured aluminum surfaces [2]
26. Effect of Different Functional Carbon Nanotubes on the Tribologica.. [2]
27. Switchable adhesion of superhydrophobic ZnO nanorod film [2]
28. Superamphiphobic self-assembled monolayer of thiol on the structur.. [2]
29. Facile fabrication of a superhydrophobic fabric with mechanical st.. [2]
30. A facile route to mechanically durable responsive surfaces with re.. [2]
31. 特殊润湿性表面材料的制备及其功能化研究 [2]
32. A superhydrophobic/superoleophilic sponge for the selective absorp.. [2]
33. Designing transparent superamphiphobic coatings directed by carbon.. [2]
34. Versatile fabrication of magnetic carbon fiber aerogel applied for.. [2]
35. The efficient separation of surfactant-stabilized water-in-oil emu.. [2]
36. WS2-Filled Hybrid PTFE/Nomex Fabric Composites with Improved Anti-.. [2]
37. Fabrication of a superhydrophobic coating with high adhesive effec.. [2]
38. Novel transparent, liquid-repellent smooth surfaces with mechanica.. [2]
39. Rapid Formation of Superhydrophobic Surfaces with Fast Response We.. [1]
40. Thermo-responsive surface wettability on a pristine carbon nanotub.. [1]
41. Study of the corrosion resistance and loading capacity of superhyd.. [1]
42. Fabrication of hierarchical structures on alumina plate and its no.. [1]
43. Rapid control of switchable oil wettability and adhesion on the co.. [1]
44. Counterion exchange to achieve reversibly switchable hydrophobicit.. [1]
45. Reversible conversion of water-droplet mobility from rollable to p.. [1]
46. Facile fabrication of superoleophobic surfaces with enhanced corro.. [1]
47. Rapid and reversible switching between superoleophobicity and supe.. [1]
48. Superhydrophilic-superoleophobic coatings [1]
49. A facile method for imparting superoleophobicity to polymer substr.. [1]
50. Sprayed superamphiphobic coatings on copper substrate with enhance.. [1]
51. Fabrication of a superhydrophobic carbon nanotube coating with goo.. [1]
52. Influence of air-plasma treatment and hexagonal boron nitride as f.. [1]
53. A superhydrophobic monolithic material with tunable wettability fo.. [1]
54. Facile fabrication of superhydrophobic sand: Potential advantages .. [1]
55. Tribological Behaviors of Molybdic Acid-Modified Phenolic/Polyfluo.. [1]
56. Effect of MWCNTs-GO hybrids on tribological performance of hybrid .. [1]
57. A superhydrophobic copper mesh as an advanced platform for oil-wat.. [1]
58. Fabrication of superhydrophobic Cu-BiOBr surface for oil/water sep.. [1]