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Vertical Phase-Engineering MoS<sub>2</sub> Nanosheet-Enhanced Textiles for Efficient Moisture-Based Energy Generation

Yuan‐Ming Cao, Yang Su, Mi Zheng, Mi Zheng, Peng Luo, Yang‐Biao Xue, Binbin Han, Min Zheng, Min Zheng, Zuoshan Wang, Liang‐Sheng Liao, Ming‐Peng Zhuo

2023ACS Nano33 citationsDOI

Abstract

Flexible moisture–electric generators (MEGs) capture chemical energy from atmospheric moisture for sustainable electricity, gaining attention in wearable electronics. However, challenges persist in the large-scale integration and miniaturization of MEGs for long-term, high-power output. Herein, a vertical heterogeneous phase-engineering MoS 2 nanosheet structure based silk and cotton were rationally designed and successfully applied to construct wearable MEGs for moisture–energy conversion. The prepared METs exhibit ∼0.8 V open-circuit voltage, ∼0.27 mA/cm 2 current density for >10 h, and >36.12 μW/cm 2 peak output power density, 3 orders higher than current standards. And the large-scale device realizes a current output of 0.145 A. An internal phase gradient between the 2H semiconductor MoS 2 in carbonized silks and 1T metallic MoS 2 in cotton fibers enables a phase-engineering-based heterogeneous electric double layer functioning as an equivalent parallel circuit, leading to enhanced high-power output. Owing to their facile customization for seamless adaptation to the human body, we envision exciting possibilities for these wearable METs as integrated self-power sources, enabling real-time monitoring of physiological parameters in wearable electronics.

Topics & Concepts

NanosheetMaterials scienceMoisturePhase (matter)NanotechnologyChemical engineeringComposite materialEngineeringChemistryOrganic chemistryAdvanced Sensor and Energy Harvesting MaterialsSolar-Powered Water Purification Methods2D Materials and Applications
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