Smart City Gnosys
Smart city article details
| Title | Triboelectric Based Smart Ceramic Tiles |
|---|---|
| ID_Doc | 59010 |
| Authors | Deng J.; Wu Z.; Huo X.; Chen Y.; Qian H.; Tang T.; Ge X.; Wang Y. |
| Year | 2024 |
| Published | Nano Energy, 128 |
| DOI | http://dx.doi.org/10.1016/j.nanoen.2024.109928 |
| Abstract | With the exponential development of the Internet of Things (IoTs), big data, and artificial intelligence (AI), smart home technologies have become crucial to people's lives and the construction of smart cities, driving an increasing demand for distributed sensors. In this work, we have for the first time successfully fabricated smart ceramic tiles (SCTs) that integrate electrodes with ceramic tiles using a layer-by-layer temperature gradient sintering method. These SCTs, which are based on triboelectric nanogenerator (TENG) technology, not only demonstrate high sensitivity and good stability, but also offer the potential for high concealment by adjusting glaze composition and color. Under various motion triggers, the SCTs produced high-discrimination electrical output signals, which proves their potential in behavior recognition. Extreme environmental tests further confirmed the SCTs' superior responsiveness. A wireless security monitoring system for SCT sensing, which was developed using IoT chips, enables remote monitoring via mobile devices. This study not only demonstrates the commercial feasibility of SCTs but also highlights their immense potential for imperceptible monitoring within the smart home domain. © 2024 |
| Author Keywords | IoTs; Smart ceramic files; Smart home; TENG |
Similar Articles
| Id | Similarity | Authors | Title | Published |
|---|---|---|---|---|
38269  | 0.89 | Mappoli S.; Ghosh K.; Pumera M. | Multi-Material 3D Printed Smart Floor Tiles With Triboelectric Energy Generation And Security Monitoring | Virtual and Physical Prototyping, 20, 1 (2025) |
| 38531 | 0.886 | Lai B.; Xu C.; Hu Y.; Chen Y.; Li Z.; Zheng J.; Zhou H.; Zhang F.; Wu Z. | Multifunctional Smart Cement Sensor Based On Triboelectric Nanogenerators | ACS Applied Electronic Materials, 6, 11 (2024) |
| 59012 | 0.879 | Cheng T. | Triboelectric Nanogenerator As Sensing For Smart City | Handbook of Triboelectric Nanogenerators (2023) |
| 26659 | 0.865 | Shi X.; Luo J.; Luo J.; Li X.; Han K.; Li D.; Cao X.; Wang Z.L. | Flexible Wood-Based Triboelectric Self-Powered Smart Home System | ACS Nano, 16, 2 (2022) |
| 38518 | 0.863 | Cao X.; Xiong Y.; Sun J.; Xie X.; Sun Q.; Wang Z.L. | Multidiscipline Applications Of Triboelectric Nanogenerators For The Intelligent Era Of Internet Of Things | Nano-Micro Letters, 15, 1 (2023) |
| 6626 | 0.863 | Sreejith S.; Ajayan J.; Reddy N.V.U.; Mathew J.K.; Manikandan M. | Advances In Self-Powered Sensing With Triboelectric Nanogenerators: A Review | Sensing and Imaging, 26, 1 (2025) |
| 10116 | 0.863 | Zhang J.; Wang J. | Applications Of Triboelectric Nanogenerator In Digital Twin Technology | Handbook of Digital Twins (2024) |
| 6501 | 0.858 | Tang Y.; Fu H.; Xu B. | Advanced Design Of Triboelectric Nanogenerators For Future Eco-Smart Cities | Advanced Composites and Hybrid Materials, 7, 3 (2024) |
| 6630 | 0.858 | Jiang M.; Lu Y.; Zhu Z.; Jia W. | Advances In Smart Sensing And Medical Electronics By Self-Powered Sensors Based On Triboelectric Nanogenerators | Micromachines, 12, 6 (2021) |
| 59013 | 0.852 | Rubab N.; Kim S.-W. | Triboelectric Nanogenerators For Self-Powered Sensors | Journal of Sensor Science and Technology, 31, 2 (2022) |