通过三电化增强效应大幅提升三电纳米发电机的性能

IF 38.6 1区材料科学 Q1 CHEMISTRY, PHYSICAL

Joule Pub Date : 2024-06-19 DOI:10.1016/j.joule.2024.04.013

Yang Yu , Hengyu Li , Xiaosong Zhang , Qi Gao , Borui Yang , Zhong Lin Wang , Tinghai Cheng

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引用次数: 0

摘要

提高三电纳米发电机（TENGs）的性能对其实际应用至关重要。传统方法具有固有的局限性，包括复杂性、成本增加以及对各种类型 TENG 的适用性受限。在这里，我们提出了一种新颖的三电化增强效应（TEE），可有效增强三电材料的三电荷，使电荷生成量显著提高 14.8 倍，输出能量惊人地增加 173.2 倍。TEE 提供了一种通用解决方案，可提高所有类型 TENG 的性能。使用 TEE 的接触分离模式 TENG 实现了超高传输电荷和功率密度，分别达到 2.2 μC 和 20.6 W/m3。在实施电源管理后，TENG 可产生 10.2 mA 的脉冲直流输出。重要的是，该原型可通过从水面和水下采集能量，为浮标和波浪预警系统提供无线传输动力。这项工作为提高 TENG 的性能提供了一种通用而简单的方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Substantially boosting performance of triboelectric nanogenerators via a triboelectrification enhancement effect

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Substantially boosting performance of triboelectric nanogenerators via a triboelectrification enhancement effect

Improving the performance of triboelectric nanogenerators (TENGs) is crucial for their practical application. Conventional methods have inherent limitations, including complexity, increased costs, and restricted applicability to various types of TENGs. Here, we propose a novel triboelectrification enhancement effect (TEE) to efficiently enhance the triboelectric charges of tribo-materials, achieving a remarkable 14.8-fold improvement in charge generation and a staggering 173.2-fold increase in output energy. The TEE offers a universal solution to enhance the performance of all types of TENGs. A contact-separation mode TENG using the TEE achieves ultrahigh transferred charge and power density of 2.2 μC and 20.6 W/m³, respectively. After implementing power management, the TENG produces a pulse direct current output of 10.2 mA. Importantly, the prototype can power buoys and wave warning systems with wireless transmission by harvesting energy from both the water surface and underwater. This work provides a universal and simple method to boost the performance of TENGs.

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来源期刊

Joule Energy-General Energy

CiteScore

53.10

自引率

2.00%

发文量

198

期刊介绍： Joule is a sister journal to Cell that focuses on research, analysis, and ideas related to sustainable energy. It aims to address the global challenge of the need for more sustainable energy solutions. Joule is a forward-looking journal that bridges disciplines and scales of energy research. It connects researchers and analysts working on scientific, technical, economic, policy, and social challenges related to sustainable energy. The journal covers a wide range of energy research, from fundamental laboratory studies on energy conversion and storage to global-level analysis. Joule aims to highlight and amplify the implications, challenges, and opportunities of novel energy research for different groups in the field.