Innovative Integration of Triboelectric Nanogenerators into Signature Stamps for Energy Harvesting, Self-Powered Electronic Devices, and Smart Applications

Eng Pub Date : 2024-05-23 DOI:10.3390/eng5020052

Lakshakoti Bochu, Supraja Potu, Madathil Navaneeth, Uday Kumar Khanapuram, Rakesh Kumar Rajaboina, Prakash Kodali

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引用次数: 0

Abstract

In this manuscript, we present a novel approach for integrating Triboelectric Nanogenerators (TENGs) into signature stamps, termed Stamp TENG (S-TENG). We have modified a commercially available stamp holder to integrate triboelectric layers for multiple applications like effective energy harvesting, sensing, and embedded electronics for data prediction. S-TENG has been further explored in remote monitoring systems for elderly individuals and for gathering real-time statistics regarding persons or events at specific locations. The S-TENG is fabricated using FEP and Al as functional layers. It demonstrates an output voltage of 310 V, a current of 165 μA, and a power density of 14.8 W/m2. The simplicity of the S-TENG’s design is noteworthy. Its ability to generate energy through simple, repetitive stamping actions, which anyone can perform without specialized training, stands out as a key feature. The device is also designed for ease of use, being handheld and user-friendly. Its flexible and adaptable structure ensures that individuals with varying physical capabilities can comfortably operate it. An impressive capability of the TENG is its ability to illuminate 320 LEDs with each stamp press momentarily. Furthermore, using energy management circuits, the S-TENG can power small electronic gadgets such as digital watches and thermometers for a few seconds. In addition, when integrated with electronics, the S-TENG shows great potential in data prediction for various practical applications.

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创新性地将三电纳米发电机集成到签名邮票中，用于能量收集、自供电电子设备和智能应用

在本手稿中，我们提出了一种将三电纳米发电机（TENGs）集成到签名邮票中的新方法，称为邮票 TENG（S-TENG）。我们对市场上销售的邮票夹进行了改装，将三电层集成到多种应用中，如有效的能量收集、传感和用于数据预测的嵌入式电子器件。S-TENG 在老年人远程监控系统和收集特定地点人员或事件的实时统计数据方面得到了进一步探索。S-TENG 采用 FEP 和 Al 作为功能层。它的输出电压为 310 V，电流为 165 μA，功率密度为 14.8 W/m2。S-TENG 设计的简洁性值得一提。它的主要特点是能够通过简单、重复的冲压动作产生能量，任何人无需经过专门培训即可操作。此外，该设备还设计成手持式，使用方便。其结构灵活、适应性强，确保不同体能的人都能舒适地操作。TENG 的一项令人印象深刻的功能是，每按一下印章，就能瞬间点亮 320 个 LED 灯。此外，利用能源管理电路，S-TENG 还能为电子表和温度计等小型电子设备供电几秒钟。此外，S-TENG 与电子设备集成后，在各种实际应用的数据预测方面显示出巨大的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Eng

CiteScore

2.10

自引率

0.00%

发文量