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8438

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1. CO2 hydrogenation to high-value products via heterogeneous catalys.. [876]
2. Revealing Mechanism of Li3PO4 Coating Suppressed Surface Oxygen Re.. [264]
3. Low temperature processed, high-performance and stable NiOx based .. [253]
4. Nanoemulsion formation by the phase inversion temperature method u.. [244]
5. Synergistic effects of Pd–Ag bimetals and g-C3N4 photocatalysts f.. [234]
6. Pseudo-Gemini Biosurfactants with CO2 Switchability for Enhanced O.. [206]
7. Treatment of oily wastewaters using magnetic Janus nanoparticles o.. [201]
8. A novel method for screening deep eutectic solvent to recycle the .. [198]
9. Probing Boundary Conditions at Hydrophobic Solid-Water Interfaces .. [194]
10. Extra Sodiation Sites in Hard Carbon for High Performance Sodium I.. [188]
11. Fullerene-like elastic carbon coatings on silicon nanoparticles by.. [188]
12. Synthesis of magnetically responsive Janus particles using biodegr.. [183]
13. Self-assembly and solubility properties of polyaromatic compounds .. [183]
14. Adhesion-Shielding based synthesis of interfacially active magneti.. [178]
15. Temperature and CO2 Dual-Responsive Pickering Emulsions Using Jeff.. [176]
16. Coalescence of Bubbles with Mobile Interfaces in Water [175]
17. Control of nanostructures through pH-dependent self-assembly of na.. [174]
18. CO2-responsive aqueous foams stabilized by pseudogemini surfactant.. [171]
19. Spontaneous displacement of high viscosity micron-size oil droplet.. [170]
20. Spontaneous Displacement of High Viscosity Micrometer Size Oil Dro.. [167]
21. Green Recycling of Goethite and Gypsum Residues in Hydrometallurgy.. [164]
22. CO2-responsive surfactants with tunable switching pH [164]
23. Strategies of optimizing CO2-responsive assemblies by understandin.. [163]
24. Dewatering process water-in-diluted bitumen emulsions using magnet.. [162]
25. Controlling interfacial property through cost-efficient, CO2-respo.. [161]
26. Silica-Silver Nanocomposites as Regenerable Sorbents for Hg-0 Remo.. [161]
27. Bubbles with tunable mobility of surfaces in ethanol-NaCl aqueous .. [158]
28. Corrigendum to “Self-assembly and solubility properties of polyar.. [158]
29. Stimuli-Responsive Hybrid Polymer for Enhanced Solid-Liquid Separa.. [157]
30. Vanadium silicate (EVS)-supported silver nanoparticles: A novel ca.. [156]
31. Li1.2Ni0.25Mn0.55O2: A high-capacity cathode material with a homog.. [156]
32. Understanding Interactions between Clay and Model Coal Surfaces in.. [155]
33. Mechanism of Goethite Precipitation on Magnetite and Maghemite Nan.. [155]
34. Role of surfactants in spontaneous displacement of high viscosity .. [154]
35. Synergistic Adsorption of Polyaromatic Compounds on Silica Surface.. [153]
36. Magnetically responsive Janus nanoparticles synthesized using cell.. [153]
37. Effect of electrolytes on interactions between a novel organic-ino.. [152]
38. 湿法回收废旧锂离子电池有价金属的研究进展 [152]
39. Viscosity reduction of extra-heavy oil using toluene in water emul.. [151]
40. Covalent bonding of MnO2 onto graphene aerogel forwards: Efficient.. [151]
41. Effect of Velocity, Solid Wettability, and Temperature on Drainage.. [151]
42. Coalescence or Bounce? How Surfactant Adsorption in Milliseconds A.. [150]
43. Interfacial properties pertinent to W/O and O/W emulsion systems p.. [147]
44. Mechanism of Goethite Precipitation on Magnetite and Maghemite Nan.. [147]
45. Elemental mercury reaction chemistry on brominated petroleum cokes [147]
46. Polyetheramine as an alternative alkali for alkali/surfactant/poly.. [147]
47. Comprehensive study on cleaner production of heavy oil from Athaba.. [147]
48. Hierarchical mesoporous heteroatom-doped carbon accelerating the a.. [147]
49. CO2-responsive O/W microemulsions prepared using a switchable supe.. [146]
50. Two-dimensional correlation analysis of continuous online in situ .. [146]
51. Interactions of Polyaromatic Compounds. Part 2. Flocculation Probe.. [145]
52. CO2-switchable dispersion of a natural chitosan and its applicatio.. [140]
53. The rheology of polyvinylpyrrolidone-coated silica nanoparticles p.. [140]
54. Perspectives on the Active Sites and Catalyst Design for the Hydro.. [138]
55. Probing Specific Adsorption of Electrolytes at Kaolinite-Aqueous I.. [136]
56. Inherent thermal regeneration performance of different MnO2 crysta.. [135]
57. Enhancing oil-solid and oil-water separation in heavy oil recovery.. [135]
58. Magnetic multi-functional SBA-15 supported silver nanocomposites: .. [135]
59. Drop impact onto a cantilever beam: Behavior of the Lamella and fo.. [134]
60. Adsorption-Based Synthesis of Magnetically Responsive and Interfac.. [132]
61. The boundary condition at the air–liquid interface and its effect.. [132]
62. Water Film Drainage between a Very Viscous Oil Drop and a Mica Sur.. [132]
63. Bitumen-Derived Onion-Like Soft Carbon as High-Performance Potassi.. [131]
64. Synthesis, characterization and acid-base properties of kaolinite .. [130]
65. Electric potential-determined redox intermediates for effective re.. [129]
66. Inward Flow of Intervening Liquid Films Driven by the Marangoni Ef.. [126]
67. Ionization potential-based design of deep eutectic solvent for rec.. [126]
68. Cellulose-coated magnetic Janus nanoparticles for dewatering of cr.. [123]
69. Comprehensive treatment of oil-contaminated soils using CO2-Respon.. [122]
70. Enhancing low-temperature thermal remediation of petroleum sludge .. [121]
71. Advanced Switchable Molecules and Materials for Oil Recovery and O.. [120]
72. Surface spinel reconstruction to suppress detrimental phase transi.. [120]
73. A Hierarchical Si/C Nanocomposite of Stable Conductive Network For.. [119]
74. N, S-Coordinated Co Single Atomic Catalyst Boosting Adsorption and.. [119]
75. Functionalization of mesoporous carbons derived from pomelo peel a.. [115]
76. CO2-responsive surfactants for greener extraction of heavy oil: A .. [113]
77. A Design Strategy of Carbon Coatings on Silicon Nanoparticles as A.. [113]
78. Molecular Characterization of Strongly and Weakly Interfacially Ac.. [112]
79. Review on hydrometallurgical recovery of valuable metals from spen.. [108]
80. Molecular structure-tuned stability and switchability of CO2-respo.. [104]
81. The effect of chitosan molecular weight on CO2-triggered switching.. [101]
82. A lattice defect-inspired leaching strategy toward simultaneous re.. [99]
83. Enhancing flotation separation of fine copper oxide from silica by.. [89]
84. Chemical looping based ammonia production—A promising pathway for.. [88]
85. Review on hydrometallurgical recovery of valuable metals from spen.. [87]
86. Probing the state of water in oil-based drilling fluids [83]
87. The effect of clay type and solid wettability on bitumen extractio.. [81]
88. Adsorption behavior of heptyl xanthate on surface of ZnO and Cu(II.. [68]
89. Efficient separation of electrode active materials and current col.. [66]
90. Effecting pattern study of SO2 on Hg0 removal over α-MnO2 in-situ.. [62]
91. Polymeric carbon nitride loaded with atomic Cu sites for improved .. [60]
92. A novel switchable collector for selective flotation of fine coppe.. [60]
93. Critical review on the degradation mechanisms and recent progress .. [58]
94. A chemically tailored capacitive deionization system for the enhan.. [54]
95. Microstructure-dependent CO2-responsive microemulsions for deep-cl.. [36]
96. Functionalization of expanded MXene to recover palladium ions by c.. [32]
97. Green synthesis of mesoporous and biodegradable iron silicide nano.. [28]
98. Ultrafast Strategy to Fabricate Sulfur Cathodes for High-Performan.. [26]
99. A Facile and Strategic Approach to Superhydrophobic Fibrous Struct.. [21]
100. Sulfonic-Acid-Based Pseudogemini Surfactant Stabilized Emulsions i.. [18]
下载量
1. Low temperature processed, high-performance and stable NiOx based .. [1]
2. CO2 hydrogenation to high-value products via heterogeneous catalys.. [1]
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