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1. Deep surface passivation for efficient and hydrophobic perovskite .. [87]
2. Two-dimensional Ruddlesden–Popper layered perovskite solar cells .. [79]
3. Development of Electrocatalysts for Efficient Nitrogen Reduction R.. [78]
4. Tailoring quasi-2D perovskite thin films via nanocrystals mediatio.. [78]
5. Direct coherent multi-ink printing of fabric supercapacitors [78]
6. Surface Reconstruction and Phase Transition on Vanadium–Cobalt–I.. [76]
7. Surface reconstruction on silver nanoparticles decorated trimetall.. [74]
8. Remarkable synergistic effect in cobalt-iron nitride/alloy nanoshe.. [72]
9. Co single-atom anchored on Co3O4 and nitrogen-doped active carbon .. [69]
10. Highly improved electrocatalytic activity of NiSx: Effects of Cr-d.. [64]
11. Development of Perovskite Oxide-Based Electrocatalysts for Oxygen .. [63]
12. Recent Development on Surface-interface Chemistry of All-solid-sta.. [62]
13. Aluminum-Based Surface Polymerization on Carbon Dots with Aggregat.. [61]
14. Antisolvent Engineering to Optimize Grain Crystallinity and Hole-B.. [60]
15. Vertically-aligned 1T/2H-MS2 (M = Mo, W) nanosheets for surface-en.. [58]
16. Two-step solvent post-treatment on PTAA for highly efficient and s.. [58]
17. Quaternary-metal phosphide as electrocatalyst for efficient hydrog.. [57]
18. Multi-Phase Heterostructure of CoNiP/CoxP for Enhanced Hydrogen Ev.. [54]
19. Interfacial gradient energy band alignment modulation via ion exch.. [44]
20. PLD-fabricated perovskite oxide nanofilm as efficient electrocatal.. [41]
21. In situ surface reconstruction on LaCoO3−δ leads to enhanced hyd.. [39]
22. Self-assembled lead-free double perovskite-MXene heterostructure w.. [37]
23. In Situ Interface Engineering for Highly Efficient Electron-Transp.. [35]
24. Thermal-Responsive and Fire-Resistant Materials for High-Safety Li.. [29]
25. Insightful view on the active sites of Ni/NixP for hydrogen evolut.. [26]
26. Dynamic Reversible Evolution of Solid Electrolyte Interface in Non.. [26]
27. Wafer-Scale 2H-MoS2 Monolayer for High Surface-enhanced Raman Scat.. [26]
28. Initial growth behavior of bismuth on Ag(111) and Au(111) Ag(111).. [24]
29. Reconstruction optimization of distorted FeOOH/Ni hydroxide for en.. [24]
30. Corrosion engineering boosting bulk Fe50Mn30Co10Cr10 high-entropy .. [23]
31. Anion induced bottom surface passivation for high performance pero.. [22]
32. Single-atom tailoring of Li2S to Form Li2S2 for building better li.. [21]
33. Observation and Suppression of Stacking Interface States in Sandwi.. [20]
34. In Operando Neutron Scattering Multiple-Scale Studies of Lithium-I.. [19]
35. Boosting the efficiency of quasi-2D perovskite light-emitting diod.. [18]
36. Crystal Orientation Modulation and Defect Passivation for Efficien.. [17]
37. Surface Passivation Toward Efficient and Stable Perovskite Solar C.. [17]
38. 石墨烯量子点的应用以及锌离子电池电解液和锌离子电池 [17]
39. Intercalation-deposition mechanism induced by aligned carbon fiber.. [16]
40. Stabilizing SEI by cyclic ethers toward enhanced K+ storage in gra.. [15]
41. Anodized Steel: The Most Promising Bifunctional Electrocatalyst fo.. [14]
42. Compositional and morphological changes in water-induced early-sta.. [8]
43. PTB7 as additive in Anti-solvent to enhance perovskite film surfac.. [8]
44. A Depth-Profiling Study on the Solid Electrolyte Interface: Bis(fl.. [8]
45. Stable and Efficient Blue‐Emitting CsPbBr3 Nanoplatelets with Pot.. [7]
46. Nature-inspired materials and designs for flexible lithium-ion bat.. [6]
47. Development of electrocatalysts for efficient nitrogen reduction r.. [5]
48. Amphipathic Molecules Endowing Highly Structure Robust and Fast Ki.. [4]

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