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Bond engineering of molecular ferroelectrics renders soft and high-performance piezoelectric energy harvesting materials

Yuzhong Hu, Kaushik Parida, Hao Zhang, Xin Wang, Yongxin Li, Xinran Zhou, Samuel A. Morris, Weng Heng Liew, Haomin Wang, Tao Li, Feng Jiang, Ming‐Min Yang, Marin Alexe, Zehui Du, Chee Lip Gan, Kui Yao, Bin Xu, Pooi See Lee, Hong Jin Fan

2022Nature Communications82 citationsDOIOpen Access PDF

Abstract

Abstract Piezoelectric materials convert mechanical stress to electrical energy and thus are widely used in energy harvesting and wearable devices. However, in the piezoelectric family, there are two pairs of properties that improving one of them will generally compromises the other, which limits their applications. The first pair is piezoelectric strain and voltage constant, and the second is piezoelectric performance and mechanical softness. Here, we report a molecular bond weakening strategy to mitigate these issues in organic-inorganic hybrid piezoelectrics. By introduction of large-size halide elements, the metal-halide bonds can be effectively weakened, leading to a softening effect on bond strength and reduction in polarization switching barrier. The obtained solid solution C 6 H 5 N(CH 3 ) 3 CdBr 2 Cl 0.75 I 0.25 exhibits excellent piezoelectric constants ( d 33 = 367 pm/V, g 33 = 3595 × 10 −3 Vm/N), energy harvesting property (power density is 11 W/m 2 ), and superior mechanical softness (0.8 GPa), promising this hybrid as high-performance soft piezoelectrics.

Topics & Concepts

PiezoelectricityMaterials scienceEnergy harvestingVoltageOptoelectronicsNanotechnologyComposite materialPower (physics)Electrical engineeringThermodynamicsEngineeringPhysicsPerovskite Materials and ApplicationsAdvanced Sensor and Energy Harvesting MaterialsAcoustic Wave Resonator Technologies
Bond engineering of molecular ferroelectrics renders soft and high-performance piezoelectric energy harvesting materials | Litcius