← 返回
储能系统技术
★ 5.0
通过离子对工程实现Bi5Mg0.5Ti3.45Zr0.05O15薄膜优异的低电场储能性能
Excellent low electric field energy storage properties in Bi5Mg0.5Ti3.45Zr0.05O15 films via ion pair engineering
| 作者 | Rui Sun · Jieyu Chen · Nano Energy · Thin Solid Films |
| 期刊 | Applied Physics Letters |
| 出版日期 | 2025年1月 |
| 卷/期 | 第 126 卷 第 18 期 |
| 技术分类 | 储能系统技术 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 弛豫铁电薄膜 储能性能 B位缺陷离子对 局部晶格畸变 溶胶 - 等离子体技术 |
语言:
中文摘要
采用溶胶-凝胶结合等离子体技术制备了Bi5Mg0.5Ti3.5−xZr_xO15(BMTZ_x_O,x = 0.00, 0.05, 0.10, 0.15)弛豫铁电薄膜。引入多取向B位缺陷离子对并增强局域晶格畸变,提高了薄膜的极化强度。缺陷离子对与弱电负性离子(Zr4+和Mg2+)的相互作用优化了弛豫特性,解耦铁电畴并为外场诱导的宏观畴提供恢复力。当x = 0.05时,薄膜在中低电场下表现出优异的能量存储性能,可回收储能密度达72.5 J/cm³,效率为70.0%。该研究为介电薄膜的高性能储能设计提供了新思路。
English Abstract
The Bi5Mg0.5Ti3.5−_x_Zr_x_O15 (BMTZ_x_O, _x_ = 0.00, 0.05, 0.10, 0.15) ergodic relaxor ferroelectric films were prepared using a combined sol–gel and plasma technique. The polarization intensity of the films is enhanced by introducing multi-oriented B-site defect ion pairs and increasing local lattice distortion. The relaxor ferroelectric properties are improved by the interaction between defect ions pairs and weakly electronegative ions (Zr4+ and Mg2+ ions), which decouples domains and provides a restoring force for field-induced macrodomains. The BMTZ_x_O ( _x_ = 0.05) film demonstrated superior energy storage performance under low-to-medium electric fields, achieving a recoverable energy storage density of 72.5 J/cm3 with an efficiency of 70.0%. This research offers a design approach for achieving superior energy storage performance in dielectric films.
S
SunView 深度解读
该弛豫铁电薄膜储能技术对阳光电源ST系列储能变流器和PowerTitan大型储能系统具有重要参考价值。研究中72.5 J/cm³的高储能密度和70%效率在中低电场下实现,可为储能系统的直流侧薄膜电容器设计提供新方案。离子对工程优化的弛豫特性和畴解耦机制,可应用于改善储能变流器母线电容的快速充放电性能和循环寿命。该技术在中低电压工况下的优异表现,特别适合1500V光伏系统和充电桩中的滤波电容优化,有助于提升功率密度、降低系统体积,为阳光电源开发高性能薄膜电容储能单元提供了材料创新路径。