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Eco-friendly, compact, and cost-efficient triboelectric nanogenerator for renewable energy harvesting and smart motion sensing

Authors :
Enrique Delgado-Alvarado
Jaime Martínez-Castillo
Enrique A. Morales-González
José Amir González-Calderón
Edgar F. Armendáriz- Alonso
Gustavo M. Rodríguez-Liñán
Ricardo López-Esparza
José Hernández-Hernández
Ernesto A. Elvira-Hernández
Agustín L. Herrera-May
Source :
Heliyon, Vol 10, Iss 7, Pp e28482- (2024)
Publication Year :
2024
Publisher :
Elsevier, 2024.

Abstract

In recent years, the growth of Internet of Things devices has increased the use of sustainable energy sources. An alternative technology is offered by triboelectric nanogenerators (TENGs) that can harvest green energy and convert it into electrical energy. Herein, we assessed three different nopal powder types that were used as triboelectric layers of eco-friendly and sustainable TENGs for renewable energy harvesting from environmental vibrations and powering electronic devices. These nanogenerators were fabricated using waste and recycled materials with a compact design for easy transportation and collocation on non-homogeneous surfaces of different vibration or motion sources. In addition, these TENGs have advantages such as high output performance, stable output voltage, lightweight, low-cost materials, and a simple fabrication process. These nanogenerators use the contact-separation mode between two triboelectric layers to convert the vibration energy into electrical energy. TENG with the best output performance is based on dehydrated nopal powder, generating an output power density of 2.145 mWm−2 with a load resistance of 39.97 MΩ under 3g acceleration and 25 Hz operating frequency. The proposed TENGs have stable output voltages during 22500 operating cycles. These nanogenerators can light 116 ultra-bright blue commercial LEDs and power a digital calculator. Also, the TENGs can be used as a chess clock connected to a mobile phone app for smart motion sensing. These nanogenerators can harvest renewable vibration energy and power electronic devices, sensors, and smart motion sensing.

Details

Language :
English
ISSN :
24058440
Volume :
10
Issue :
7
Database :
Directory of Open Access Journals
Journal :
Heliyon
Publication Type :
Academic Journal
Accession number :
edsdoj.59b6ad5fdcdb4de28e928dd3ac7d1659
Document Type :
article
Full Text :
https://doi.org/10.1016/j.heliyon.2024.e28482