2D Layered Materials Based Triboelectric Self-Powered Sensors

Rakesh Kumar Rajaboina, Uday Kumar Khanapuram, Anu Kulandaivel
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Abstract

Sensors play a crucial role in enhancing the quality of life, ensuring safety, and facilitating technological advancements. Over the past decade, 2D layered materials have been added as new sensing element in addition to existing materials such as metal oxides, semiconductors, metals, and polymers. 2D Layered materials are typically characterized by their single or few-layer thickness and offer a high surface-to-volume ratio, exceptional mechanical strength, and unique electronic attributes. These properties make them ideal candidates for a variety of sensing applications. This review article focused on utilizing 2D layered materials in triboelectric nanogenerators (TENGs) for different sensing applications. The best part of TENG-based sensing is that it is self-powered, so no external power supply is required. The initial part of the review focused on the importance of the 2D layered materials and their innovative integration methods in TENGs. Further, this review discusses various sensing applications, including humidity, touch, force, temperature, and gas sensing, highlighting the impact of 2D layered materials in enhancing the sensitivity and selectivity of TENG sensors. The last part of the review discusses the challenges and prospects of TENG-based self-powered sensors.

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基于二维层状材料的三电自供电传感器
传感器在提高生活质量、确保安全和促进技术进步方面发挥着至关重要的作用。在过去的十年中,除了金属氧化物、半导体、金属和聚合物等现有材料外,二维层状材料已成为新的传感元件。二维层状材料的典型特征是单层或少层厚度,具有高表面体积比、优异的机械强度和独特的电子属性。这些特性使它们成为各种传感应用的理想候选材料。这篇综述文章的重点是在三电纳米发生器(TENGs)中利用二维层状材料实现不同的传感应用。基于 TENG 的传感技术的最大优点是自供电,因此无需外部电源。综述的第一部分重点介绍了二维层状材料及其创新集成方法在 TENG 中的重要性。此外,本综述还讨论了各种传感应用,包括湿度、触摸、力、温度和气体传感,强调了二维层状材料对提高 TENG 传感器灵敏度和选择性的影响。综述的最后一部分讨论了基于 TENG 的自供电传感器所面临的挑战和前景。
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