Emergent functionalities enhanced by mechanical stress in SnO2-based flexible devices

Makoto Sakurai
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Abstract

Emergent functionalities created by applying mechanical stress to flexible devices using SnO2 microrods and Ga2O3/SnO2-core/shell microribbons are reviewed. Dynamic lattice defect engineering through application of mechanical stress and a voltage to the SnO2 microrod device leads to a reversible semiconductor-insulator transition through lattice defect creation and healing, providing an effective and simple solution to the persistent photoconductivity (PPC) problem that has long plagued UV semiconductor photosensors. Here, lattice defects are created near slip planes in a rutile-structured microrod by applying mechanical stress and are healed by Joule heating by applying a voltage to the microrod. Nanoscale amorphous structuring makes the Ga2O3/SnO2-core/shell microribbon with a large SnO2 surface area more sensitive to changes in temperature, while mechanical bending of the wet device improves its sensitivity to adsorbed water molecules. These results illustrate the potential for developing flexible devices with new functionalities by enhancing the intrinsic properties of materials through miniaturization, mechanical stress, and hybridization.
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基于二氧化锡的柔性器件中通过机械应力增强的新兴功能
本文综述了通过对使用二氧化锡微晶棒和 Ga2O3/SnO2 核/壳微晶带的柔性器件施加机械应力而产生的新功能。通过对二氧化锡微晶器件施加机械应力和电压来实现动态晶格缺陷工程,从而通过晶格缺陷的产生和愈合实现可逆的半导体-绝缘体转换,为长期困扰紫外半导体光传感器的持久光电导(PPC)问题提供了一种有效而简单的解决方案。在这里,通过施加机械应力在金红石结构微晶块的滑移面附近产生晶格缺陷,并通过在微晶块上施加电压进行焦耳加热使其愈合。纳米级非晶结构使具有较大二氧化锰表面积的 Ga2O3/SnO2 核/壳微晶带对温度变化更加敏感,而湿器件的机械弯曲提高了其对吸附水分子的敏感性。这些结果表明,通过微型化、机械应力和杂化来增强材料的固有特性,开发具有新功能的柔性器件大有可为。
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