Flexible Electronics: Mechanical Strain‐Tunable Microwave Magnetism in Flexible CuFe2O4 Epitaxial Thin Film for Wearable Sensors (Adv. Funct. Mater. 10/2018),Advanced Functional Materials

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Flexible Electronics: Mechanical Strain‐Tunable Microwave Magnetism in Flexible CuFe2O4 Epitaxial Thin Film for Wearable Sensors (Adv. Funct. Mater. 10/2018)
Advanced Functional Materials ( IF 18.5 ) Pub Date : 2018-03-05 , DOI: 10.1002/adfm.201870063
Wenlong Liu ₁ , Ming Liu ₁ , Rong Ma ₁ , Ruyi Zhang ₁ , Wenqing Zhang ₂ , Dapeng Yu ₂ , Qing Wang ₃ , Jiannong Wang ₄ , Hong Wang _{1,

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Affiliation

A large tunable and superiorly stable microwave magnetism in flexible CuFe₂O₄ epitaxial thin films achieved through purely mechanical strains and deformations is reported by Ming Liu, Hong Wang, and co‐workers in article number 1705928. Purely machinery‐tunable microwave magnetism devices that are lightweight, flexible, and wearable are promising for the application in flexible passive sensing systems and spintronic devices.

中文翻译：

柔性电子产品：可穿戴传感器的柔性CuFe2O4外延薄膜中的机械应变可调微波磁学（Adv。Funct。Mater.10 / 2018）

刘铭，王宏及其同事在文章编号1705928中报告了通过纯机械应变和变形获得的，在柔性CuFe ₂ O ₄外延薄膜中的可调谐且超稳定的大微波磁场。文章编号1705928。轻巧，灵活和可穿戴是其在柔性无源传感系统和自旋电子设备中的应用所带来的希望。

更新日期：2018-03-05

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