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Triboelectric nanogenerators with ultrahigh current density enhanced by hydrogen bonding between nylon and graphene oxide

Renyun Zhang, Magnus Hummelgård, Jonas Örtegren, Henrik Andersson, Martin Olsen, Dabo Chen, Jiayong Li, Alireza Eivazi, Christina Dahlström, Magnus Norgren, Zhong Lin Wang

2023Nano Energy43 citationsDOIOpen Access PDF

Abstract

The triboelectric properties of the tribolayers are essential factors affecting the current density of triboelectric nanogenerators (TENGs). To enhance the current density, composites have been developed to tune their triboelectric properties. Previous studies have reported enhanced TENG performance with composite materials, primarily based on their composition, while chemical interactions between the components have been less analyzed. In this study, we report a novel approach to improve the current density of a TENG by introducing dipole-dipole interactions between a nylon filter membrane and graphene oxide (GO) through hydrogen bonds. The Raman spectroscopy confirmed the occurrence of the interactions resulting from hydrogen bonding. The enhancing mechanisms of hydrogen bonds were further analyzed by Kelvin probe force microscope (KPFM) measurement, which demonstrated that hydrogen bonding could influence the surface potential of the coated GO, leading to increased output of the nylon/GO@NFM TENG (NGN-TENG). Our results show that an ultrahigh current density of 1757 mA·m−2 was obtained with a 2 × 2 cm2 NGN-TENG. Additionally, we demonstrated the feasibility of using the NGN-TENG as a motion sensor to sense finger motions. These findings suggest that the introduction of hydrogen bonds in TENG composites can provide a promising route for improving their performance.

Topics & Concepts

Triboelectric effectMaterials scienceGrapheneNanogeneratorNanotechnologyOxideCurrent densityHydrogen bondKelvin probe force microscopeCurrent (fluid)OptoelectronicsComposite materialAtomic force microscopyPiezoelectricityMoleculeElectrical engineeringOrganic chemistryChemistryPhysicsEngineeringMetallurgyQuantum mechanicsAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsSupercapacitor Materials and Fabrication
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