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Autonomous self-healing and stretchable triboelectric nanogenerator with hybrid double-network elastomer for self-powered multifunctional electronics

Puran Pandey, Min-Kyu Seo, Seunghwan Jo, Kumar Shrestha, Juwon Lee, Jung Inn Sohn

2025Advanced Composites and Hybrid Materials6 citationsDOIOpen Access PDF

Abstract

Despite the widespread interest in triboelectric nanogenerators (TENGs) for self-powered wearable electronics, the development of TENGs that effectively combine self-healing and robust mechanical properties remains challenging. Herein, we report an autonomous fully self-healing TENG (SH − TENG) with excellent mechanical properties for multifunctional self-powered applications. The SH − TENG is fabricated using a self-healing Ecoflex (SH − Ecoflex) synthesized through the polymerization of an Ecoflex–polyborosiloxane (PBS) hybrid double network elastomer. The SH − Ecoflex exhibits high tensile strength, exceptional stretchability (590%), and autonomous mechanical self-healing efficiency (68% in 2 h). The SH − TENG efficiently harvests mechanical energy (269.1 mW/m 2 ), autonomously recovers its performance even after damage or mechanical deformation, and maintains durable performance over 12,000 contact-separation cycles. The SH − TENG effectively charges the capacitor within a short time to power the digital thermo-hygrometer, and offers self-powered sensing functionality to monitor human joint movements. Furthermore, the handwriting touch panel is designed with a diagonal strip-void electrode-based SH − TENG to enhance the perception of finger sliding and generate a distinct electrical signal for each handwritten letter. Through the integration of a deep learning model, an advanced handwriting recognition system has been developed to recognize five handwritten letters with an average accuracy of 99%, demonstrating its potential for future applications in intelligent tactile perception and human–machine interaction, as well as signature and user recognition systems.

Topics & Concepts

Triboelectric effectNanogeneratorMaterials scienceCapacitorCapacitive sensingElastomerElectronicsWearable computerInkwellWearable technologyTactile sensorComputer scienceElectrical engineeringPower (physics)PEDOT:PSSMechanical energySignature (topology)Mechanical systemDC motorApplications of artificial intelligenceArtificial intelligenceElectronic engineeringElectronic skinHandwriting recognitionArtificial muscleMicroactuatorCapacitanceAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsSupercapacitor Materials and Fabrication