Abstract Electronic textiles (e-textiles) need to have high heat durability for various applications. However, current e-textiles are usually damaged by high-temperature processes. We report silk-based e-textiles fabricated by simple pyrolysis with axial stretching that demonstrate high electrical conductivity and thermal durability. The electrical conductivity of the proposed e-textiles was on the order of 103S/cm and the electrical characteristics were maintained even after heating and bending. Furthermore, we prepared e-textiles with various electronic properties, such as semiconducting, superconducting, and light-emitting properties, by depositing ZnO, MoSe2, and NbN onto the commercial silk-based e-textiles using sputtering and evaporation. We introduced a simple method for fabricating silk-based e-textiles with various electronic properties, which are compatible with the current textile industry.

中文翻译：

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具有高耐热性的基于焦蛋白的电子纺织品

摘要 电子纺织品（e-textiles）需要具有高耐热性以适应各种应用。然而，目前的电子纺织品通常会被高温工艺损坏。我们报告了通过简单热解和轴向拉伸制造的基于丝绸的电子纺织品，具有高导电性和耐热性。所提出的电子纺织品的电导率约为 103S/cm，即使在加热和弯曲后仍能保持电特性。此外，我们通过使用溅射和蒸发将 ZnO、MoSe2 和 NbN 沉积到商用丝基电子纺织品上，制备了具有各种电子特性的电子纺织品，例如半导体、超导和发光特性。我们介绍了一种制造具有各种电子特性的丝基电子纺织品的简单方法，