期刊
NANO ENERGY
卷 95, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.nanoen.2022.107050
关键词
Charge conduction; Charge induction; Liquid-solid triboelectric nanogenerator; Peak power density
类别
资金
- National Natural Science Foundation of China [12074321, 11774293]
- Chongqing Science and Technology Commission [cstc2020jcyj-msxm1120]
- Fundamental Research Funds for the Central Universities [SWU118105]
The introduction of a charge collector needle in the traditional architecture of TENG allows for the conduction current, resulting in a new water tube TENG (DcCc-TENG) with high instantaneous power. Through a detailed physical process model, it is revealed that the high instantaneous power output of DcCc-TENG is based on the synergistic enhancement mechanism of displacement and conduction currents. The experimental results demonstrate a high instantaneous volumetric power density of 16.6 W/m(3) for a single device, capable of powering more than 120 LEDs, and the potential application of DcCcTENG is further demonstrated in a ship attitude sensor.
Liquid-solid based triboelectric nanogenerator (L-S TENG) has aroused great attention in blue energy harvesting. Although these classical L-S TENG can achieve good performance by using the gradually changed displacement current, the further improvement of instantaneous power is limited. People can improve the output with external management circuits and transistor-like architecture, but the complex structure and fabrication process of devices make the practicality of TENG very difficult. Here, by developing the structure of charge collector needle to introduce conduction current into the traditional architecture of TENG, we designed a new water tube TENG (DcCc-TENG) with high instantaneous power. By establishing a detailed physical process model, we revealed that the physical nature of DcCc-TENG with high instantaneous power output is based on the synergistic enhancement mechanism of displacement and conduction currents. We also used the different device structures to further clarify the contribution of these two currents. Finally, a single device shows high instantaneous volumetric power density of 16.6 W/m(3), which is capable to power more than 120 LEDs. A ship attitude sensor based on DcCcTENG further proves its potential application in sensing.
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