2021
DOI: 10.1038/s41598-021-95621-3
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Nanostructured versus flat compact electrode for triboelectric nanogenerators at high humidity

Abstract: The triboelectric nanogenerator (TENG) is a promising technology for mechanical energy harvesting. TENG has proven to be an excellent option for power generation but typically TENGs output power drops significantly in humid environments. In this work, the effect of electrode’s material on power output, considering smooth and nanostructured porous structures with various surface hydrophobicity, is investigated under various humidity conditions. A vertical contact-separation mode TENG is experimentally and numer… Show more

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Cited by 27 publications
(13 citation statements)
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“…The RH dependence of the SM-TVNG output has also been analyzed (Figure d). An increased and then decreased tendency was discovered with the increase of RH, which is quite different from those of TENGs, where they decreased always as a whole . It is believed that the surface state density of 4H-SiC increases, the Schottky barrier increases, and the carrier driving force as a result of the built-in electric field increases with the increase of RH, resulting in an increase of the electronic output. , If the RH surpasses 80%, the surface Schottky barrier becomes extremely high as a result of the filling of vast water vapor and the probability of the electronic transition is reduced; thus, the output is reduced.…”
Section: Resultsmentioning
confidence: 92%
“…The RH dependence of the SM-TVNG output has also been analyzed (Figure d). An increased and then decreased tendency was discovered with the increase of RH, which is quite different from those of TENGs, where they decreased always as a whole . It is believed that the surface state density of 4H-SiC increases, the Schottky barrier increases, and the carrier driving force as a result of the built-in electric field increases with the increase of RH, resulting in an increase of the electronic output. , If the RH surpasses 80%, the surface Schottky barrier becomes extremely high as a result of the filling of vast water vapor and the probability of the electronic transition is reduced; thus, the output is reduced.…”
Section: Resultsmentioning
confidence: 92%
“…For this reason, the contact area is often maximized by different types of micro-or nanosurface structuring techniques. [39,40] In this work, each layer was produced in the form of fiber mats by electrospinning in order to achieve fibrils with diameters ranging from <100 nm up to ≈1 µm. Electrospinning is one of the simplest, versatile, efficient, scalable, and cost-effective methods for producing sub-micrometer fibers and high surface area nonwoven mats.…”
Section: Resultsmentioning
confidence: 99%
“…The top positive layer is designed with the dimension of 1 μm diameter and 0.2 μm thickness, the same act as the terminal also. The two opposite dielectric polarity layers are separated with a 0.915 mm interval. …”
Section: Methodsmentioning
confidence: 99%