REFERENCES

1. Liu, H.; Shen, J.; Zhang, T.; et al. Imidazole diphenyl phosphate-boron nitride nanoflakes for significantly enhancing flame retardation and thermal transport performance of epoxy. J. Alloys. Compd. 2025, 1020, 179414.

2. Zhang, M.; Zhou, W.; Zhang, Y.; et al. Regulating SiO₂ interlayer morphology towards synergistically reinforced dielectric properties and thermal conductivity in Si/PVDF composites. Compos. Part. A. Appl. S. 2025, 194, 108893.

3. Wang, Z.; Wang, R.; Luo, M.; et al. Enhancing electrical insulation and thermal conductivity in polymer through constructing energy-dissipation organic electron acceptor/inorganic filler. Small 2025, 21, e2502696.

4. Luo, M.; Zhou, Y.; Wang, R.; Cao, X.; Wang, Z. Enhanced dielectric breakdown strength and thermal conductivity of silicone gel composites with high-electron-affinity silicon Dioxide/Cationic Polymer/Nano-diamond. Chem. Eng. J. 2024, 501, 157623.

5. Wang, Z.; Yang, G.; Cao, X.; et al. Dielectric and thermal properties characterisation and evaluation of novel epoxy materials for high-voltage power module packaging. HIGH. VOLT. 2024, 9, 1021-32.

6. Li, B.; Randall, C. A.; Manias, E. Polarization mechanism underlying strongly enhanced dielectric permittivity in polymer composites with conductive fillers. J. Phys. Chem. C. 2022, 126, 7596-604.

7. Sun, S.; Fan, K.; Yang, J.; et al. Surface modification engineering on polymer materials toward multilevel insulation properties and subsequent dielectric energy storage. Mater. Today. 2024, 80, 758-823.

8. Yuan, M.; Zhang, G.; Li, B.; Chung, T. C. M.; Rajagopalan, R.; Lanagan, M. T. Thermally stable low-loss polymer dielectrics enabled by attaching cross-linkable antioxidant to polypropylene. ACS. Appl. Mater. Interfaces. 2020, 12, 14154-64.

9. Ren, J.; Zeng, R.; Yang, J.; et al. Significantly enhancing the through-plane thermal conductivity of epoxy dielectrics by constructing aramid nanofiber/boron nitride three-dimensional interconnected framework. J. Appl. Phys. 2024, 136, 045101.

10. Sun, W.; Yang, M.; Peng, K.; Fu, Y. All-organic hyper-crosslinked polymer/polyimide composite films with ultralow high-frequency dielectric constant. Macromol. Rapid. Commun. 2023, 44, e2200956.

11. Liu, G.; Zhu, L.; Chang, Z.; et al. Significantly enhancing the high-temperature breakdown and capacitive performances of dielectric polymers via incorporating alumina nanotubes as equivalent crosslinking points. Adv. Funct. Mater. 2025, 35, 2425001.

12. Ren, Z.; Lei, L.; Zhu, L.; et al. Remarkably boosted high-temperature electrostatic energy storage of polyetherimide film induced by TiO₂@Au@AlO_x@Au core-shell nanofibers. Adv. Funct. Mater. 2025, 35, 2417156.

13. Gao, F.; Yue, X.; Xu, X.; et al. A N/Co co-doped three-dimensional porous carbon as cathode host for advanced lithium-selenium batteries. Rare. Met. 2023, 42, 2670-8.

14. Zhao, D.; Jiang, S.; Yu, S.; et al. Lychee seed-derived microporous carbon for high-performance sodium-sulfur batteries. Carbon 2023, 201, 864-70.

15. Zhong, S.; Chen, K.; Wang, S.; et al. Metal-based nanowires in electrical biosensing. Rare. Met. 2024, 43, 6233-54.

16. Wang, X.; Gao, F.; Zhao, H.; et al. Polymer-based dielectric composite films with excellent dielectric energy storage and thermal management capabilities. Adv. Funct. Mater. 2025, Epub ahead of print.

17. Chen, X.; Shi, Y.; Zhang, K.; et al. Synergistically depressed dielectric loss and elevated breakdown strength in core@double-shell structured Cu@CuO@MgO/PVDF nanocomposites. Polymer 2024, 307, 127321.

18. Wang, F.; Zhou, W.; Zhou, J.; et al. Engineering of core@double-shell Mo@MoO₃@PS particles in PVDF composites towards improved dielectric performances. J. Polym. Res. 2023, 30, 3494.

19. Wang, F.; Luo, H.; Chen, H.; et al. Surface-confined winding assembly of SiO₂ on the surface of BaTiO₃ leading to enhanced performance of dielectric nanocomposites. Adv. Funct. Mater. 2024, 34, 2410862.

20. Ma, J.; Chen, Y.; Peng, Q.; et al. Low-temperature induced crystallographic orientation boosting Li storage performance of Na₂ MoO₄ ·2H₂O. Rare. Met. 2025, 44, 135-46.

21. Zhang, M.; Wang, J.; Cheng, Y.; et al. Synergistic modulation of free volume and band structure assist the high energy storage performance of polymer dielectrics. Adv. Funct. Mater. 2025, 35, 2506101.

22. Liu, Z.; Titus, C. J.; Jaye, C.; et al. Vitreous silica supported metal catalysts for direct non-oxidative methane coupling. Chem. Eng. J. 2024, 499, 156436.

23. Zhang, J.; Zhang, J.; Ye, X.; et al. Ultralight and compressive SiC nanowires aerogel for high-temperature thermal insulation. Rare. Met. 2023, 42, 3354-63.

24. Wang, Z.; Zhao, Y.; Yang, M.; et al. Surface strengthening of polymer composite dielectrics for superior high-temperature capacitive energy storage. Adv. Energy. Mater. 2025, 15, 2405411.

25. Ai, D.; Wu, C.; Han, Y.; et al. Polymer nanocomposites with concurrently enhanced dielectric constant and breakdown strength at high temperature enabled by rationally designed core-shell structured nanofillers. J. Mater. Sci. Technol. 2025, 210, 170-8.

26. Wang, H.; Wang, J.; Wang, X.; et al. Dielectric properties and energy storage performance of PVDF-based composites with MoS2@MXene nanofiller. Chem. Eng. J. 2022, 437, 135431.

27. Yuan, J.; Feng, Z.; Li, D.; Luo, Y.; Zhou, Y. Epidermal visualized health monitoring system based on stretchable and washable TPU hybrid conductive microtextiles. Rare. Met. 2024, 43, 3185-93.

28. Wang, X.; Yuan, Y.; Chen, D.; et al. BaTiO₃ nanoparticles coated with polyurethane and SiO₂ for enhanced dielectric properties. ACS. Appl. Nano. Mater. 2023, 6, 2615-24.

29. Xiao, M.; Zhang, M.; Du, B.; Fan, K. Improving the dielectric properties of polypropylene for metallised film capacitors based on cyclic olefin copolymer blending. IET. Nanodielectr. 2024, 7, 140-9.

30. Zhang, Y.; Chen, F.; Liu, D.; et al. AI safety of film capacitors. IET. Nanodielectr. 2024, 7, 131-9.

31. Wang, Y.; Zhao, W.; Zhao, L.; et al. Preparation of two-dimensional gradient fillers reinforced polymer nanocomposites for high-performance energy storage of dielectric capacitors. J. Energy. Storage. 2024, 101, 113886.

32. Yang, Y.; Chao, J.; Jiang, P.; et al. Improved dielectric and energy storage properties of three-dimensional BaTiO₃/polyvinyl alcohol-boron nitride flexible dielectric composite via template infiltration strategy. IET. Nanodielectr. 2024, 7, 68-77.

33. Zhou, Y.; Wang, Y.; Qiu, S.; et al. Microscopic response mechanism of epsilon-negative and epsilon-near-zero metacomposites. Research 2025, 8, 0556.

34. Zhong, S.; Lu, B.; Wang, D. C.; et al. Passive isothermal flexible sensor enabled by smart thermal-regulating aerogels. Adv. Mater. 2025, 37, e2415386.

35. Zhou, Y.; Cheng, W.; Bai, Y.; Hou, C.; Li, K.; Huang, Y. Rise of flexible high-temperature electronics. Rare. Met. 2023, 42, 1773-7.

36. Wang, R.; Zhu, Y.; Huang, S.; et al. Dielectric polymers with mechanical bonds for high-temperature capacitive energy storage. Nat. Mater. 2025, 24, 1074-81.

37. Zhou, Y.; Wang, S.; Yin, J.; et al. Flexible metasurfaces for multifunctional interfaces. ACS. Nano. 2024, 18, 2685-707.

38. Xing, K.; Hao, Y.; Wang, X. J.; et al. Enhanced energy storage performance of nano-submicron structural dielectric films by suppressed ferroelectric phase aggregation. Nat. Commun. 2025, 16, 2006.

39. Qu, Y.; Zhou, Y.; Luo, Y.; et al. Universal paradigm of ternary metacomposites with tunable epsilon-negative and epsilon-near-zero response for perfect electromagnetic shielding. Rare. Met. 2024, 43, 796-809.

40. Zhou, Y.; Yin, L.; Xiang, S.; et al. Unleashing the potential of MXene-based flexible materials for high-performance energy storage devices. Adv. Sci. 2024, 11, e2304874.

41. Yin, P.; Lei, L.; Tang, Q.; et al. Polymer dielectrics intercalated with a non-contiguous granular nanolayer for high-temperature pulsed energy storage. Energy. Storage. Mater. 2025, 77, 104213.

42. Ren, Z.; Shi, Z.; Tang, Q.; et al. Core-shell TiO₂ @Au nanofibers derived from a unique physical coating strategy for excellent capacitive energy storage nanocomposites. Adv. Funct. Mater. 2024, 34, 2401907.

43. Wang, G.; Yang, Z.; Li, L.; Ren, J.; Liu, J.; Li, L. Self-assembled MXene@fluorographene hybrid for high dielectric constant and low loss ferroelectric polymer composite films. ACS. Appl. Mater. Interfaces. 2024, 16, 25268-79.

44. Huang, B.; Yu, Y.; Zhao, Y.; et al. Al@SiO₂ core-shell fillers enhance dielectric properties of silicone composites. ACS. Omega. 2023, 8, 35275-82.

45. Zhou, Y.; Tian, X.; Cao, X.; et al. Enhanced thermal conductivity and electrical insulation properties of liquid crystalline epoxy composites by using optimized alumina hybrid fillers. Mater. Today. Phys. 2025, 54, 101719.

46. Zhang, F.; Gao, M.; Wu, C.; Yang, J.; Zhang, N.; Wang, Y. Glutaraldehyde-assisted crosslinking for the preparation of low dielectric loss and high energy density cellulose composites filled with poly(dopamine) modified MXene. Eur. Polym. J. 2024, 221, 113526.

47. Yang, K.; Feng, Y.; Liang, L.; Zhang, Z.; Chen, X.; Chen, Q. Thermal conductivity and dielectric properties of EP composites filled by one-dimensional core-shell structured h-BN@SiO₂ fibers. Ceram. Int. 2024, 50, 9441-52.

48. Hou, D.; Zhou, J.; Chen, W.; Zhang, P.; Shen, J.; Jian, Z. Core@double-shell structured fillers for increasing dielectric constant and suppressing dielectric loss of PVDF-based composite films. Ceram. Int. 2022, 48, 22691-8.

49. Wang, H.; Bai, L.; Zhong, S.; Yang, Q.; Dang, Z. Enhanced dielectric constant and concurrently suppressed dielectric loss of PVDF composites incorporating BaTiO3@SSCNT@SiO₂ core@double-shell structured fillers. Ceram. Int. 2024, 50, 26334-42.