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1. 全钒液流电池中蛇型和插指型流道的对比 [101]

2. High Zinc Utilization Aqueous Zinc Ion Batteries Enabled by 3D Pri.. [93]

3. A transient model for charge and mass transfer through anion excha.. [88]

4. Ir-Pt/C composite with high metal loading as a high-performance an.. [88]

5. A Janus-faced, perovskite nanofiber framework reinforced composite.. [84]

6. IrOXSupported onto Niobium-Doped Titanium Dioxide as an Anode Reve.. [72]

7. In-situ forming lithiophilic-lithiophobic gradient interphases for.. [70]

8. Sponge-Like Microfiber Electrodes for High-Performance Redox Flow .. [69]

9. Battery thermal management system with heat pipe considering batte.. [67]

10. Balancing the specific surface area and mass diffusion property of.. [62]

11. Modeling thermal runaway of lithium-ion batteries with a venting p.. [62]

12. Single-atom catalyst for high-performance methanol oxidation [58]

13. Magnetic-atom strategy enables unilamellar MoS2-C interoverlapped .. [54]

14. Numerical modeling of interdigitated flow fields for scaled-up red.. [53]

15. A solvent molecule reconstruction strategy enabling a high-voltage.. [53]

16. Investigation of battery thermal management system with considerin.. [52]

17. Thermal issues of vanadium redox flow batteries [51]

18. Along-flow-path gradient flow field enabling uniform distributions.. [51]

19. Asymmetric Porous Polybenzimidazole Membranes with High Conductivi.. [50]

20. Characterizations and selections of electrodes with optimal perfor.. [49]

21. In-plane gradient design of flow fields enables enhanced convectio.. [49]

22. A High-Capacity Polyethylene Oxide-Based All-Solid-State Battery U.. [48]

23. In-situ construction of fluorinated solid-electrolyte interphase f.. [47]

24. Realizing high-voltage aqueous zinc-ion batteries with expanded el.. [47]

25. A bifurcate interdigitated flow field with high performance but si.. [46]

26. Monolayer MoS2 Fabricated by In Situ Construction of Interlayer El.. [46]

27. Atomic-interface strategy and N,O co-doping enable WS2 electrodes .. [44]

28. A Janus separator towards dendrite-free and stable zinc anodes for.. [43]

29. A composite electrode with gradient pores for high-performance aqu.. [40]

30. Modeling and optimization of micro heat pipe cooling battery therm.. [40]

31. A Nafion/polybenzimidazole composite membrane with consecutive pro.. [39]

32. Nano TiC electrocatalysts embedded graphite felt for high rate and.. [38]

33. Dead-zone-compensated design as general method of flow field optim.. [38]

34. Enhancing Voltage Reversal Tolerance of Proton Exchange Membrane F.. [37]

35. 3D hierarchical graphene matrices enable stable Zn anodes for aque.. [36]

36. Metal-free Fabrication of Nitrogen-doped Vertical Graphene on Grap.. [35]

37. 3D printing critical materials for rechargeable batteries: from ma.. [34]

38. A Secondary-Doped Polybenzimidazole Membrane with High Proton Cond.. [33]

39. Recent advances in the anode catalyst layer for proton exchange me.. [33]

40. A 3D modelling study on all vanadium redox flow battery at various.. [33]

41. Boosting the performance and durability of heterogeneous electrode.. [31]

42. Multilevel carbon architecture of subnanoscopic silicon for fast-c.. [31]

43. Developing terpyridine-based metal complexes for non-aqueous redox.. [30]

44. Synergistic effects of Lewis acid-base and Coulombic interactions .. [30]

45. Durable carbon-shell-encapsulated Pt/C catalysts synthesized by di.. [28]

46. Thermal Effects on the Performance of Stack-Scale Vanadium Redox F.. [27]

47. An artificial interfacial layer with biomimetic ionic channels tow.. [27]

48. Understanding and optimizing water transport phenomena in the cata.. [25]

49. A Steric-Hindrance-Induced Weakly Solvating Electrolyte Boosting t.. [23]

50. A comprehensive modelling study of all vanadium redox flow battery.. [22]

51. In-situ electrodeposition of homogeneous and dense bismuth nanopar.. [22]

52. An Electrolyte with Elevated Average Valence for Suppressing the C.. [21]

53. A response time-based method to operando decouple the polarization.. [21]

54. Engineered metal coverage of anode catalyst layer enhancing cell r.. [21]

55. Numerical modeling of a convection-enhanced flow field for high-pe.. [21]

56. Redox flow batteries and their stack-scale flow fields [21]

57. Engineering the d-Orbital Energy of Metal-Organic Frameworks-Based.. [20]

58. Hydrated solvation suppression of zinc ions for highly reversible .. [19]

59. Thermo-electrochemical modeling of thermally regenerative flow bat.. [19]

60. Dendrite-free zinc anode enabled by bifunctional additive coupling.. [19]

61. The anion conductivity of acid-doped polybenzimidazole membrane an.. [18]

62. Modeling and optimization of liquid-based battery thermal manageme.. [16]

63. Gas evolution induced vicious cycle between bubble trapping and fl.. [16]

64. High-Power-Density and High-Energy-Efficiency Zinc-Air Flow Batter.. [15]

65. In Memoriam Prof. James Vere Beck (1930-2022) [14]

66. Modeling proton exchange membrane fuel cells with platinum-group-m.. [13]

67. Constructing highly durable reversal-tolerant anodes via integrati.. [10]

68. A transient multi-path decentralized resistance-capacity network m.. [10]

69. Phase-field modeling of zinc dendrites growth in aqueous zinc batt.. [9]

70. Scaling up flow fields from lab-scale to stack-scale for redox flo.. [7]

71. Electrolyte engineering for efficient and stable vanadium redox fl.. [6]

72. Recent Advances in Redox Flow Batteries Employing Metal Coordinati.. [5]

73. Pt-Pyrrole Complex-Assisted Synthesis of Carbon-Supported Pt Inter.. [5]

74. Understanding and enhancing the under-rib convection for flow-fiel.. [1]

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