Institute For Chemistry And Technology Of Materials 1

1. From electrochemical performance to mechanical Issues: A review on silicon anode architectures for advanced lithium-ion batteries
2. Tuning the Nanoporous Structure of Carbons Derived from the Composite of Cross-Linked Polymers for Charge Storage Applications
3. Exploring unique properties of polypyrrole reinforced molybdenum disulfide electrodes for aqueous aluminum ion capacitors
4. Microcrystalline-Fe₂P₄O₁₂ as eco-friendly and efficient anode for high-performance dual-ion battery
5. Iodine Adsorption in Nanoporous Carbon to Fabricate Assimilated Battery Electrodes for Durable Hybrid Supercapacitors
6. Development Status and Future Prospects of Hydrogen Energy Technology: Production, Storage, and Cost Analysis
7. Multivalent metal-ion-based energy storage: A comprehensive review of challenges and technological prospects
8. Progress and challenges of zinc ion capacitors: From basic principles to performance optimization strategies
9. Utilizing metal-organic frameworks and covalent-organic frameworks for enhanced cathode design and separator functionality in metal-sulfur batteries
10. A comprehensive review of template-assisted porous carbons: Modern preparation methods and advanced applications
11. Revisiting the carbon mesopore contribution towards improved performance of ionic liquid–based EDLCs at sub-zero temperatures
12. High capacity Mo₇S₈ nanosheets with electrodeposited alpha-Co(OH)₂ thin layer as positive electrode in hybrid potassium dual-ion supercapacitors
13. An asymmetric MnO₂|activated carbon supercapacitor with highly soluble choline nitrate-based aqueous electrolyte for sub-zero temperatures
14. A unique choline nitrate-based organo-aqueous electrolyte enables carbon/carbon supercapacitor operation in a wide temperature window (−40°C to 60°C)
15. The critical role of nanostructured carbon pores in supercapacitors
16. Sodium-ion diffusion coefficients in tin phosphide determined with advanced electrochemical techniques
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