REFERENCES

1. Lee, W.; Kim, J. Cellulose nanofiber grafting and aluminum nitride deposition on the surface of expanded graphite to improve the thermal conductivity and mechanical properties of phase change material composites. Compos. Part. B. Eng. 2022, 230, 109526.

2. Sharma, A.; Abhinand, S.; Kothadia, H. Successive charging and discharging behaviour of a bio-organic sustainable phase change material and its instabilities. Chem. Eng. Sci. 2025, 307, 121354.

3. Ni, R.; Zhang, D.; Wang, R.; Xie, Z.; Wang, Y. Prevention and suppression effects of phase change material on thermal runaway in batteries. Case. Stud. Therm. Eng. 2023, 48, 103160.

4. Pilali, E.; Soltani, M.; Hatefi, M.; Shafiei, S.; Salimi, M.; Amidpour, M. Passive thermal management systems with phase change material-based methods for lithium-ion batteries: a state-of-the-art review. J. Power. Sources. 2025, 632, 236345.

5. Wei, H.; Zheng, Z.; Xu, X.; et al. Fabrication and building energy-saving performance evaluation of polyethylene glycol/polymethyl methacrylate/expanded graphite thermal enhanced shape-stable phase change material. Appl. Therm. Eng. 2024, 257, 124410.

6. Chen, Y.; Guo, X.; Shi, C.; Zhou, X.; Zou, D. Preparation of metal-based microencapsulated phase change material and its application in a battery for thermal management and thermal runaway protection. Compos. Part. B. Eng. 2025, 298, 112376.

7. Fathimathul Faseena, A.; Sreekumar, A. Advances, perspectives and challenges in phase change material based battery thermal management: a comprehensive review. J. Energy. Storage. 2025, 113, 115644.

8. Kim, J.; Bae, D.; Park, C.; Park, H. Pre-detection of thermal runaway in Li-ion 18650 batteries via temperature and voltage: the importance of temperature measurement location. Appl. Therm. Eng. 2025, 269, 125991.

9. Liu, Y.; Chen, Y.; Chang, Z.; Wu, X.; Jiang, Z.; Tang, S. Role of porous metal foam on temperature control and thermal runaway propagation of integrated battery thermal management systems. Appl. Therm. Eng. 2025, 267, 125712.

10. Wang, P.; Xu, C.; Huang, J.; Zhang, M.; Jiang, F.; Feng, X. Experimental and simulation study on internal thermal runaway development drives venting and flammable gas risk evaluate of lithium-ion battery. Appl. Energy. 2025, 385, 125545.

11. Gharehghani, A.; Rabiei, M.; Mehranfar, S.; et al. Progress in battery thermal management systems technologies for electric vehicles. Renew. Sustain. Energy. Rev. 2024, 202, 114654.

12. Hwang, F. S.; Confrey, T.; Reidy, C.; et al. Review of battery thermal management systems in electric vehicles. Renew. Sustain. Energy. Rev. 2024, 192, 114171.

13. Liu, J.; Yadav, S.; Salman, M.; Chavan, S.; Kim, S. C. Review of thermal coupled battery models and parameter identification for lithium-ion battery heat generation in EV battery thermal management system. Int. J. Heat. Mass. Transfer. 2024, 218, 124748.

14. Keyhani-asl, A.; Perera, N.; Lahr, J.; Hasan, R. Innovative hybrid battery thermal management system incorporating copper foam porous fins and layers with phase change material and liquid cooling. Appl. Therm. Eng. 2025, 268, 125848.

15. Najafi Khaboshan, H.; Jaliliantabar, F.; Abdullah, A. A.; Panchal, S.; Azarinia, A. Parametric investigation of battery thermal management system with phase change material, metal foam, and fins; utilizing CFD and ANN models. Appl. Therm. Eng. 2024, 247, 123080.

16. Lin, X.; Zhou, Z.; Liu, M.; et al. Thermal management performance and optimization of a hybrid system integrating liquid cooling and fin-enhanced phase change material for large-capacity energy storage battery pack. Energy. Convers. Manag. 2025, 336, 119889.

17. Zhang, W.; Zhang, J.; Zhang, G.; et al. A novel leak-proof thermal conduction slot battery thermal management system coupled with phase change materials and liquid-cooling strategies. Energies 2024, 17, 939.

18. Wang, J. X.; Mao, Y.; Miljkovic, N. Nano‐enhanced graphite/phase change material/graphene composite for sustainable and efficient passive thermal management. Adv. Sci. 2024, 11, 2402190.

19. Li, X.; Wang, J.; Wu, Z.; Cao, W.; Zhang, X. An energy saving strategy on the composite phase change material and spiral liquid cooling channel for battery thermal management. Renew. Energy. 2024, 227, 120529.

20. Chen, M.; Gong, Y.; Zhao, L.; Chen, Y. Phase change material with outstanding thermal stability and mechanical strength for battery thermal management. J. Energy. Storage. 2024, 104, 114565.

21. Yang, W.; Lin, R.; Li, X.; et al. High thermal conductive and anti-leakage composite phase change material with halloysite nanotube for battery thermal management system. J. Energy. Storage. 2023, 66, 107372.

22. Zhao, J.; Chen, Y.; Chen, M. Battery thermal management with a modified metal alloy/expanded graphite/paraffin composite phase change material. J. Energy. Storage. 2025, 113, 115652.

23. Chen, Y.; Tian, C.; Tu, Y.; et al. Paraffin/graphite/boron nitride composite as a novel phase change material for rapid heat absorption in battery thermal management technology. Int. J. Heat. Mass. Transfer. 2024, 235, 126214.

24. Cheng, G.; Wang, Z.; Wang, X.; He, Y. All-climate thermal management structure for batteries based on expanded graphite/polymer composite phase change material with a high thermal and electrical conductivity. Appl. Energy. 2022, 322, 119509.

25. B., K.; Pandey, A.; Saidur, R.; Tyagi, V. Energizing organic phase change materials using silver nanoparticles for thermal energy storage. J. Energy. Storage. 2023, 58, 106361.

26. Kenganal, S. S.; Sahoo, A. Ground tire rubber/activated carbon/expanded graphite aerogels and foams as support material for the preparation of polyethylene glycol composite phase change materials for thermal energy storage applications. J. Energy. Storage. 2024, 78, 109805.

27. Yang, J.; Chen, L.; Ou, J.; Li, W.; Wu, W. Room-temperature flexible composite phase change materials for enhanced battery thermal management. Appl. Therm. Eng. 2025, 265, 125667.

28. Chen, M.; Zhu, M.; Zhao, L.; Chen, Y. Study on thermal runaway propagation inhibition of battery module by flame-retardant phase change material combined with aerogel felt. Appl. Energy. 2024, 367, 123394.

29. Luo, W.; Zou, M.; Wang, J.; et al. Cross-linked polyurethane phase change materials based on multiple hydrogen bonds with excellent mechanical, flame retardant and energy storage properties for novel battery jackets. ACS. Sustainable. Chem. Eng. 2025, 13, 16497-508.

30. Liu, F.; Wang, J.; Wang, F.; et al. Battery thermal safety management with form-stable and flame-retardant phase change materials. Int. J. Heat. Mass. Transfer. 2024, 218, 124764.

31. Zhang, S.; Wang, R.; Du, Y.; et al. Inherently flame retardant and aging resistance rigid polyurethane foam by incorporating the synthesized polyhydroxy phosphonates. Compos. Commun. 2025, 53, 102246.

32. Li, Y.; Hu, S.; Fang, H.; Deng, Y.; Yang, C. Highly-efficient flame-retarding unsaturated polyester resin via the designation of an expansive flame retardant. Adv. Ind. Eng. Polym. Res. 2025, 8, 10-9.

33. Li, Y.; Zhu, Y.; Vallem, S.; et al. Flame-retardant ammonium polyphosphate/MXene decorated carbon foam materials as polysulfide traps for fire-safe and stable lithium-sulfur batteries. J. Energy. Chem. 2024, 89, 313-23.

34. Li, K.; Yuan, B. Developing flame-retardant properties into intrinsic phase change materials: a molecular design study inspired by phosphorus-nitrogen synergy. Chem. Eng. J. 2025, 509, 161287.

35. Chu, T.; Lu, Y.; Hou, B.; et al. Engineering amine-modified ammonium polyphosphate for enhancing flame retardancy and smoke suppression of vinyl ester resin. Constr. Build. Mater. 2025, 475, 141174.

36. Liu, Z.; Dai, M.; Hu, Q.; et al. Effect of microencapsulated ammonium polyphosphate on the durability and fire resistance of waterborne intumescent fire-retardant coatings. J. Coat. Technol. Res. 2018, 16, 135-45.

37. Zheng, P.; Zhao, H.; Li, J.; et al. Recent advances in constructing new type of epoxy resin flame retardant system using ammonium polyphosphate. J. Saf. Sci. Resil. 2024, 5, 179-93.

38. Li, F.; Wang, Y.; Lai, M.; Zhang, H.; Zhao, J. Recycling cenospheres to construct chitosan bonded-ammonium polyphosphate/dipentaerythritol hybrid geopolymer coatings for flame-retarding plywood. J. Mater. Res. Technol. 2023, 25, 3865-83.

39. Peil, S.; Mouhoubi, R.; Streekstra, R.; et al. Encapsulation of ammonium polyphosphate in lignin nanocontainers enhances dispersion and flame retardancy in polylactic acid Foams. ACS. Appl. Polym. Mater. 2024, 6, 6096-107.

40. Qin, Z.; Yang, R.; Zhang, W.; Li, D.; Jiao, Q. Synergistic barrier effect of aluminum phosphate on flame retardant polypropylene based on ammonium polyphosphate/dipentaerythritol system. Mater. Des. 2019, 181, 107913.

41. Wu, X.; Qin, Z.; Zhang, X.; et al. Micro-nanometer particle composition and functional design of surface nano-structured ammonium polyphosphate and its application in intumescent flame-retardant polypropylene. Nanomaterials 2022, 12, 606.

42. Sun, Q.; Wang, J.; Meng, X.; Zhang, J.; Yan, H. A novel high-efficient P/N/Si-containing APP-based flame retardant with a silane coupling agent in its molecular structure for epoxy resin. Chin. J. Chem. Eng. 2023, 55, 137-47.

43. Zhang, X.; Zhang, F.; Zhang, W.; Tang, X.; Fan, H. S. Enhance the interaction between ammonium polyphosphate and epoxy resin matrix through hydrophobic modification with cationic latex. Colloids. Surf. A. Physicochem. Eng. Asp. 2021, 610, 125917.

44. Wang, W.; Liu, Y.; Wang, Q. Synthesis of melamine cyanuric based flame retardant via hydrogen bond self-assembly and in-situ dispersion strategies for improving comprehensive performance of epoxy resin. Compos. Part. A. Appl. Sci. Manuf. 2024, 176, 107826.

45. Li, X.; He, Y.; Tang, D.; Liu, Y.; Wang, Q. Application of MCA-AlPi nitrogen-phosphorus synergistic flame retardant in nylon 11. J. Appl. Polym. Sci. 2025, 142, e57158.

46. Jiang, Z.; Qu, Z.; Zhang, J.; Rao, Z. Rapid prediction method for thermal runaway propagation in battery pack based on lumped thermal resistance network and electric circuit analogy. Appl. Energy. 2020, 268, 115007.