Radiation-hardened dendritic-like nanocomposite films with ultrahigh capacitive energy density

纳米复合材料 材料科学 电容感应 光电子学 能量密度 纳米技术 辐射 工程物理 光学 计算机科学 物理 操作系统
作者
Yajing Liu,Mengsha Li,Kai Jiang,Yang Zhang,Pin Gong,Sijia Song,Dong Li,Huan Liang,Xinmiao Huang,Jing Wang,Weiwei Li,Ce‐Wen Nan
出处
期刊:Nature Communications [Nature Portfolio]
卷期号:16 (1): 3882-3882 被引量:1
标识
DOI:10.1038/s41467-025-59225-z
摘要

Electrostatic dielectric capacitors are critical components in advanced electronic and electrical systems owing to their high-power density and ultrafast charge-discharge capability. However, achieving ultrahigh energy storage performance combined with robust radiation resistance remains a major challenge, particularly for practical applications in extreme environments. Guided by simulations, self-assembled nanocomposite films with dendritic-like structured ferroelectric embedded in an insulator are designed to overcome these challenges. This strategy boots energy storage performance by forming nano-polar regions and obstructing electric breakdown processes. More importantly, it not only exploits the intrinsic radiation-resistant properties of ferroelectric materials, but also takes advantages of abundant interfaces within the dendritic structure to enable a self-healing effect to improve radiation resistance. This self-healing mechanism, driven by interactions between ferroelectric and insulating phases, effectively eliminates radiation-induced defects and minimizes performance degradation under high radiation doses. Using this approach, we demonstrate the dendritic-like PbZr0.53Ti0.47O3-MgO nanocomposite film capacitor exhibits an ultrahigh energy density over 200 joules per cubic centimeter and an excellent radiation tolerance exceeding 20 Mrad. This work offers a promising approach for the development of advanced electrostatic capacitors, particularly for applications in radiation-exposed power systems.
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