301 results on '"Chou, Shu‐Lei"'
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2. Non‐Flammable Succinonitrile‐Based Deep Eutectic Electrolyte for Intrinsically Safe High‐Voltage Sodium‐Ion Batteries
3. Solid-State Synthesis of Low-Cost and High-Energy-Density Sodium Layered-Tunnel Oxide Cathodes: Dynamic Structural Evolution, Na+/Vacancy Disordering, and Prominent Moisture Stability
4. A 30‐year overview of sodium‐ion batteries
5. Regulation of anion–Na + coordination chemistry in electrolyte solvates for low-temperature sodium-ion batteries
6. Chemical‐Stabilized Aldehyde‐Tuned Hydrogen‐Bonded Organic Frameworks for Long‐Cycle and High‐Rate Sodium‐Ion Organic Batteries
7. Routes to high-performance layered oxide cathodes for sodium-ion batteries
8. Revealing the effect of conductive carbon materials on the sodium storage performance of sodium iron sulfate
9. Insight into the Role of Fluoroethylene Carbonate on the Stability of Sb||Graphite Dual‐Ion Batteries in Propylene Carbonate‐Based Electrolyte
10. Insight into the Role of Fluoroethylene Carbonate on the Stability of Sb||Graphite Dual‐Ion Batteries in Propylene Carbonate‐Based Electrolyte
11. Pre‐Oxidation Strategy Transforming Waste Foam to Hard Carbon Anodes for Boosting Sodium Storage Performance
12. Facilitating Layered Oxide Cathodes Based on Orbital Hybridization for Sodium‐ion Batteries: Marvelous Air Stability, Controllable High Voltage, And Anion Redox Chemistry
13. Interfacial Electron Regulation and Composition Evolution of NiFe/MoC Heteronanowire Arrays for Highly Stable Alkaline Seawater Oxidation
14. Back Cover Image
15. Achieving All‐Plateau and High‐Capacity Sodium Insertion in Topological Graphitized Carbon
16. Sulfur‐Rich Additive‐Induced Interphases Enable Highly Stable 4.6 V LiNi0.5Co0.2Mn0.3O2||graphite Pouch Cells
17. Sulfur‐Rich Additive‐Induced Interphases Enable Highly Stable 4.6 V LiNi0.5Co0.2Mn0.3O2||graphite Pouch Cells
18. Insights into layered–tunnel dynamic structural evolution based on local coordination chemistry regulation for high‐energy‐density and long‐cycle‐life sodium‐ion oxide cathodes
19. Boosting the Development of Hard Carbon for Sodium‐Ion Batteries: Strategies to Optimize the Initial Coulombic Efficiency
20. Enthalpy‐Driven Room‐Temperature Superwetting of Liquid Na–K Alloy as Flexible and Dendrite‐Free Anodes
21. Anion Receptor Weakens ClO 4 − Solvation for High‐Temperature Sodium‐Ion Batteries
22. Layered oxide cathodes for sodium‐ion batteries: From air stability, interface chemistry to phase transition
23. Long‐Cycle‐Life Cathode Materials for Sodium‐Ion Batteries toward Large‐Scale Energy Storage Systems
24. Surface Lattice‐Matched Engineering Based on In Situ Spinel Interfacial Reconstruction for Stable Heterostructured Sodium Layered Oxide Cathodes (Adv. Funct. Mater. 14/2023)
25. Low-cost Prussian blue analogues for sodium-ion batteries and other metal-ion batteries
26. Recent progress of transition metal-based catalysts as cathodes in O2/H2O-involved and pure Li–CO2batteries
27. Novel Combination Therapy for Triple-Negative Breast Cancer based on an Intelligent Hollow Carbon Sphere
28. Carbon nanosphere synthesis and applications for rechargeable batteries
29. Developing High‐Performance Metal Selenides for Sodium‐Ion Batteries
30. Hard carbon derived from hazelnut shell with facile HCl treatment as high-initial-coulombic-efficiency anode for sodium ion batteries
31. Vanadium-based cathodes for aqueous zinc-ion batteries: Mechanism, design strategies and challenges
32. Continuous Carbon Channels Enable Full Na‐Ion Accessibility for Superior Room‐Temperature Na–S Batteries
33. The Future for Room‐Temperature Sodium–Sulfur Batteries: From Persisting Issues to Promising Solutions and Practical Applications
34. In Situ Plating of Mg Sodiophilic Seeds and Evolving Sodium Fluoride Protective Layers for Superior Sodium Metal Anodes
35. Formulating High‐Rate and Long‐Cycle Heterostructured Layered Oxide Cathodes by Local Chemistry and Orbital Hybridization Modulation for Sodium‐Ion Batteries
36. Strain Engineering by Local Chemistry Manipulation of Triphase Heterostructured Oxide Cathodes to Facilitate Phase Transitions for High‐Performance Sodium‐Ion Batteries
37. Na 1.51 Fe[Fe(CN) 6 ] 0.87 ·1.83H 2 O Hollow Nanospheres via Non‐Aqueous Ball‐Milling Route to Achieve High Initial Coulombic Efficiency and High Rate Capability in Sodium‐Ion Batteries
38. Expanding the ReS2 Interlayer Promises High-Performance Potassium-Ion Storage
39. Organic Small Molecules with Electrochemical‐Active Phenolic Enolate Groups for Ready‐to‐Charge Organic Sodium‐Ion Batteries
40. Two‐in‐one shell configuration for bimetal selenides toward fast sodium storage within broadened voltage windows
41. Architecting Braided Porous Carbon Fibers Based on High‐Density Catalytic Crystal Planes to Achieve Highly Reversible Sodium‐Ion Storage
42. High‐Voltage, Highly Reversible Sodium Batteries Enabled by Fluorine‐Rich Electrode/Electrolyte Interphases
43. Enhanced Polysulfide Conversion with Highly Conductive and Electrocatalytic Iodine‐Doped Bismuth Selenide Nanosheets in Lithium–Sulfur Batteries
44. Effect of Eliminating Water in Prussian Blue Cathode for Sodium‐Ion Batteries
45. Graphene-Supported Naphthalene-Based Polyimide Composite as a High-Performance Sodium Storage Cathode
46. Streamline Sulfur Redox Reactions to Achieve Efficient Room‐Temperature Sodium–Sulfur Batteries
47. Streamline Sulfur Redox Reactions to Achieve Efficient Room‐Temperature Sodium–Sulfur Batteries
48. A High Conductivity 1D π–d Conjugated Metal–Organic Framework with Efficient Polysulfide Trapping‐Diffusion‐Catalysis in Lithium–Sulfur Batteries
49. The Emerging Electrochemical Activation Tactic for Aqueous Energy Storage: Fundamentals, Applications, and Future
50. Continuous Carbon Channels Enable Full Na‐Ion Accessibility for Superior Room‐Temperature Na–S Batteries
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