REFERENCES

1. Liu, M.; Cheng, Z.; Ganapathy, S.; et al. Tandem interface and bulk Li-ion transport in a hybrid solid electrolyte with microsized active filler. ACS. Energy. Lett. 2019, 4, 2336-42.

2. Xu, K. Electrolytes and interphases in Li-ion batteries and beyond. Chem. Rev. 2014, 114, 11503-618.

3. Yao, Y.; Wei, Z.; Wang, H.; et al. Toward high energy density all solid-state sodium batteries with excellent flexibility. Adv. Energy. Mater. 2020, 10, 1903698.

4. Cao, X.; Ren, X.; Zou, L.; et al. Monolithic solid-electrolyte interphases formed in fluorinated orthoformate-based electrolytes minimize Li depletion and pulverization. Nat. Energy. 2019, 4, 796-805.

5. Angell, C. A.; Liu, C.; Sanchez, E. Rubbery solid electrolytes with dominant cationic transport and high ambient conductivity. Nature 1993, 362, 137-9.

6. Liu, W.; Yi, C.; Li, L.; et al. Designing polymer-in-salt electrolyte and fully infiltrated 3D electrode for integrated solid-state lithium batteries. Angew. Chem. Int. Ed. 2021, 60, 12931-40.

7. Wang, Y.; Li, T.; Yang, X.; et al. 2D solid-electrolyte interphase built by high-concentration polymer electrolyte for highly reversible silicon anodes. Adv. Energy. Mater. 2024, 14, 2303189.

8. Qiu, J.; Liu, X.; Chen, R.; et al. Enabling stable cycling of 4.2 V high-voltage all-solid-state batteries with PEO-based solid electrolyte. Adv. Funct. Mater. 2020, 30, 1909392.

9. Shi, C.; Yu, M. Flexible solid-state lithium-sulfur batteries based on structural designs. Energy. Storage. Mater. 2023, 57, 429-59.

10. Zhou, Q.; Fu, C.; Li, R.; et al. Poly (vinyl ethylene carbonate)-based dual-salt gel polymer electrolyte enabling high voltage lithium metal batteries. Chem. Eng. J. 2022, 437, 135419.

11. Zhu, M.; Wu, J.; Liu, B.; et al. Multifunctional polymer electrolyte improving stability of electrode-electrolyte interface in lithium metal battery under high voltage. J. Membr. Sci. 2019, 588, 117194.

12. Wang, J.; Yamada, Y.; Sodeyama, K.; Chiang, C. H.; Tateyama, Y.; Yamada, A. Superconcentrated electrolytes for a high-voltage lithium-ion battery. Nat. Commun. 2016, 7, 12032.

13. Zhang, W.; Koverga, V.; Liu, S.; et al. Single-phase local-high-concentration solid polymer electrolytes for lithium-metal batteries. Nat. Energy. 2024, 9, 386-400.

14. Chen, A.; Zeng, Q.; Wen, W.; et al. A highly salt-soluble ketone-based all-solid-state polymer electrolyte with superior performances for lithium-ion batteries. ACS. Appl. Mater. Interfaces. 2023, 15, 17791-800.

15. Yang, J.; Li, R.; Zhang, P.; et al. Crosslinked polymer-in-salt solid electrolyte with multiple ion transport paths for solid-state lithium metal batteries. Energy. Storage. Mater. 2024, 64, 103088.

16. You, D.; Farooq, M. A.; Lai, Z.; Wei, W.; Xiong, H. In-built curable high-salt-concentrated elastomeric polymer electrolytes for integrated all-solid-state lithium batteries and ion conduction. Macromolecules 2024, 57, 4471-83.

17. Ma, Q.; Liu, D.; Wang, B.; Liu, W.; Xiong, G.; Liu, J. Cellulose acetate-promoted polymer-in-salt electrolytes for solid-state lithium batteries. J. Solid. State. Electrochem. 2023, 27, 1411-21.

18. Le Nguyen, M.; Nguyen, V. C.; Lee, Y. L.; Jan, J. S.; Teng, H. Synergistic combination of ether-linkage and polymer-in-salt for electrolytes with facile Li⁺ conducting and high stability in solid-state lithium batteries. Energy. Storage. Mater. 2024, 65, 103178.

19. Xie, K.; Fu, Q.; Chen, F.; et al. Controlling the supramolecular architecture enables high lithium cationic conductivity and high electrochemical stability for solid polymer electrolytes. Adv. Funct. Mater. 2024, 34, 2315495.

20. Zhang, D.; Shi, Y.; An, J.; Yang, S.; Li, B. Triallyl cyanurate copolymerization delivered nonflammable and fast ion conducting elastic polymer electrolytes. J. Mater. Chem. A. 2022, 10, 23095-102.

21. Zhang, L.; Xu, X.; Jiang, S.; et al. Halloysite nanotubes modified poly(vinylidenefluoride-co-hexafluoropropylene)-based polymer-in-salt electrolyte to achieve high-performance Li metal batteries. J. Colloid. Interface. Sci. 2023, 645, 45-54.

22. Cao, X.; Jia, H.; Xu, W.; Zhang, J. G. Review - localized high-concentration electrolytes for lithium batteries. J. Electrochem. Soc. 2021, 168, 010522.

23. Chen, J.; Li, Q.; Pollard, T. P.; Fan, X.; Borodin, O.; Wang, C. Electrolyte design for Li metal-free Li batteries. Mater. Today. 2020, 39, 118-26.

24. Selvanathan, V.; Halim, M. N. A.; Azzahari, A. D.; Rizwan, M.; Shahabudin, N.; Yahya, R. Effect of polar aprotic solvents on hydroxyethyl cellulose-based gel polymer electrolyte. Ionics 2018, 24, 1955-64.

25. Bradford, G.; Lopez, J.; Ruza, J.; et al. Chemistry-informed machine learning for polymer electrolyte discovery. ACS. Cent. Sci. 2023, 9, 206-16.

26. Aykol, M.; Kim, S.; Hegde, V. I.; et al. High-throughput computational design of cathode coatings for Li-ion batteries. Nat. Commun. 2016, 7, 13779.