Transparent Anti-Radiative Ferroelectric Heterostructure Based on Flexible Oxide Heteroepitaxy
In the era of Internet of Things, the demand for flexible and transparent electronic devices has shifted to the forefront of materials science research. However, the radiation damage to key performance of transparent devices under radiative environment remains as a critical issue. Here, we present a...
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| Veröffentlicht in: | ACS applied materials & interfaces 2018-08 |
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| creator | Ma, Chun-Hao Jiang, Jie Shao, Pao-Wen Peng, Qiangxiang Huang, Chun-Wei Wu, Ping-Chun Lee, Jyun-Ting Lai, Yu-Hong Tsai, Din Ping Wu, Jyh Ming Lo, Shen-Chuan Wu, Wen-Wei Zhou, Yichun Chiu, Po-Wen Chu, Ying-Hao |
| description | In the era of Internet of Things, the demand for flexible and transparent electronic devices has shifted to the forefront of materials science research. However, the radiation damage to key performance of transparent devices under radiative environment remains as a critical issue. Here, we present a promising technology for nonvolatile transparent electronic devices based on flexible oxide heteroepitaxy. A direct fabrication of epitaxial lead lanthanum zirconate titanate on transparent flexible mica substrate with indium tin oxide electrodes is presented. The transparent flexible ferroelectric heterostructures not only retain their superior performance, thermal stability, reliability and mechanical durability, but also exhibit remarkably robust properties against to a strong radiation exposure. Our study demonstrates an extraordinary concept to realize transparent flexible nonvolatile electronic devices for the design and development of next-generation smart devices with potential application in electronics, automotive, aerospace and nuclear systems. |
| doi_str_mv | 10.1021/acsami.8b10272 |
| format | Article |
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| title | Transparent Anti-Radiative Ferroelectric Heterostructure Based on Flexible Oxide Heteroepitaxy |
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