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Self-poled piezoelectric polymer composites via melt-state energy implantation

Zhao‐Xia Huang, Lanwei Li, Yunzhi Huang, Wen-Xu Rao, Haowei Jiang, Jin Wang, Huanhuan Zhang, Hezhi He, Jinping Qu

2024Nature Communications137 citationsDOIOpen Access PDF

Abstract

Abstract Lightweight flexible piezoelectric polymers are demanded for various applications. However, the low instinctively piezoelectric coefficient ( i.e . d33) and complex poling process greatly resist their applications. Herein, we show that introducing dynamic pressure during fabrication is capable for poling polyvinylidene difluoride/barium titanate (PVDF/BTO) composites with d33 of ~51.20 pC/N at low density of ~0.64 g/cm 3 . The melt-state dynamic pressure driven energy implantation induces structure evolutions of both PVDF and BTO are demonstrated as reasons for self-poling. Then, the porous material is employed as pressure sensor with a high output of ~20.0 V and sensitivity of ~132.87 mV/kPa. Besides, the energy harvesting experiment suggests power density of ~58.7 mW/m 2 can be achieved for 10 N pressure with a long-term durability. In summary, we not only provide a high performance lightweight, flexible piezoelectric polymer composite towards sustainable self-powered sensing and energy harvesting, but also pave an avenue for electrical-free fabrication of piezoelectric polymers.

Topics & Concepts

Materials scienceComposite materialPiezoelectricityPolymerAdvanced Sensor and Energy Harvesting MaterialsDielectric materials and actuatorsConducting polymers and applications
Self-poled piezoelectric polymer composites via melt-state energy implantation | Litcius