An Energy Storage Material Fabricated by Coating Ba0.40Sr0.60TiO3 Nano Particles with Aluminum Oxide Doped with Zinc Oxide Shell
| Periodical | Key Engineering Materials (Volumes 512 - 515) |
|---|---|
| Main Theme | High-Performance Ceramics VII |
| Edited by | Wei Pan and Jianghong Gong |
| Pages | 1635-1640 |
| DOI | 10.4028/www.scientific.net/KEM.512-515.1635 |
| Citation | Chao Xu et al., 2012, Key Engineering Materials, 512-515, 1635 |
| Online since | June, 2012 |
| Authors | Chao Xu, Bo Shen, Ji Wei Zhai |
| Keywords | Breakdown Strength, BST, Dielectric Storage Material, Energy Density |
| Price | US$ 28,- |
For energy storage devices such as capacitances, pulsed power applications and other any electronic systems, high permittivity and high breakdown strength (BDS) are necessary for dielectric materials used in high energy storage capacitors. Ba0.4Sr0.6TiO3 nano-powders were directly synthesized from solution and then wrapped by a thin surrounding shell with composition of zinc oxides dopants in aluminum oxides. This core-shell structure was characterized by a conjunction of XRD, and TEM analysis. The core-shell nanoparticles were pressed into pellets with 10 mm diameter and then sintered at different temperature in air. The specimen coated with 2.0wt% compounds of aluminum oxides doped with zinc oxides showed the maximum breakdown strength of 475kV/cm and the energy storage density of 4.7J/cm3 while the tanĪ“ was only 0.002, whereas the uncoated Ba0.4Sr0.6TiO3 was only 86.9kV/cm, 0.23J/cm3 and 0.005, respectively. And the energy storage density and the BDS decreased when the shell content was more than 2.0wt%.
