Litcius/Paper detail

High Durability Sliding TENG with Enhanced Output Achieved by Capturing Multiple Region Charges for Harvesting Wind Energy

W. He, Yunchuan Liu, Junhao Jin, Jiahao Cai, B. C. Y. Wan, Jie Chen, Xiaohong Yang, Chenguo Hu

2026Nano-Micro Letters6 citationsDOIOpen Access PDF

Abstract

Abstract Improving the electric output and durability of triboelectric nanogenerator (TENG) remains a great challenge. In sliding-mode TENG, surface charge dissipation and charge leakage caused by the volume effect result in serious energy waste. In this work, a durable dual output mode TENG (DDO-TENG), which includes alteranting current and direct current output modes, is designed to capture the dissipating charges in the surface of charge space accumulation area and the inner leakage charge in porous network to further improve the output performance of sliding TENGs. The output charge density of DDO-TENG reaches 0.847 mC m −2 , which is 2.39 times as that of the single mode device. In addition, it has strong durability, remaining 95.7% after over 271 k cycles, and it can continuously power electronics by harvesting wind energy. This work provides a strategy for achieving the improvement on output performance and durability and expands the application of TENG.

Topics & Concepts

Triboelectric effectDurabilityDissipationMaterials scienceElectrical engineeringLeakage (economics)Wind powerNanogeneratorWork (physics)Power densityElectronicsPower (physics)Automotive engineeringCurrent densityEnergy harvestingPower electronicsVoltageCharge (physics)EngineeringCurrent (fluid)LinearitySpace chargeWind speedElectricity generationVolume (thermodynamics)CapacitanceAdvanced Sensor and Energy Harvesting MaterialsSurface Modification and SuperhydrophobicitySolar-Powered Water Purification Methods