Polarity assessment of hydroxide mediated P(VDF-TrFE) composites for piezoelectric energy harvesting and self-powered mechanosensing†

IF 5 3区材料科学 Q2 CHEMISTRY, PHYSICAL

Sustainable Energy & Fuels Pub Date : 2024-10-02 DOI:10.1039/D4SE01118J

Abhishek Sasmal, Payel Maiti, Arunachalakasi Arockiarajan and Shrabanee Sen

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Abstract

Poly(vinylidenefluoride-trifluoroethylene) (P(VDF-TrFE)) commonly exhibits a very high degree of polarity in pristine condition. Still, highly piezoelectric inorganic fillers are incorporated into P(VDF-TrFE) to improve its piezoelectric energy harvesting performance and dielectric polarization. Here we incorporate a non-piezoelectric hydroxide filler, namely ZnSn(OH)₆ (ZS), into P(VDF-TrFE) and study the effect of this filler on the polarity and piezoelectricity of the resulting composite systems. The amount of polar phase of pristine P(VDF-TrFE) was observed to be as high as ∼88.5% which slightly increased to ∼91% for 1 wt% ZS loaded P(VDF-TrFE) and then abruptly decreased for higher amounts of filler loading. For the 10 wt% ZS loaded P(VDF-TrFE) the polar phase decreased to ∼56%. This result has been explained here on the basis of hydrogen bonding interaction which has been intentionally facilitated here through the use of a ZnSn(OH)₆ filler that contains a large number of –OH groups available for said interaction. The piezoelectricity of the composite films, as observed from PFM (Piezoresponse Force Microscopy) investigation, also showed a similar trend of variation of the piezoelectric properties of the composite films as compared to their polar phase. Owing to its high piezoelectricity, the 1 wt% ZS loaded P(VDF-TrFE) film was further used here for mechanical energy harvesting and different kinds of mechanosensing applications. The piezoelectric nanogenerator made up of this film delivered a high output power density (∼50 μW cm⁻²) with ∼83.5% efficiency.

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用于压电能量收集和自供电机械传感的氢氧化物介导 P（VDF-TrFE）复合材料的极性评估†

聚偏二氟乙烯-三氟乙烯（P(VDF-TrFE)）在原始状态下通常具有很高的极性。然而，为了改善 P(VDF-TrFE) 的压电能量收集性能和介电极化，人们在其中加入了高压电无机填料。在此，我们在 P(VDF-TrFE)中加入了一种非压电氢氧化物填料，即 ZnSn(OH)6 (ZS)，并研究了这种填料对所得复合材料体系极性和压电性的影响。观察到原始 P(VDF-TrFE) 的极性相含量高达 ∼ 88.5%，在 ZS 含量为 1 wt% 的 P(VDF-TrFE) 中，极性相含量略微增加到 ∼ 91%，然后随着填料添加量的增加而骤减。对于 ZS 含量为 10 wt% 的 P(VDF-TrFE)，极性相降至 ∼56%。这一结果的原因是氢键相互作用，通过使用含有大量 -OH 基团的 ZnSn(OH)6 填料，有意促进了氢键相互作用。通过 PFM（压电响应力显微镜）研究观察到的复合薄膜的压电性能也显示出与其极性相类似的变化趋势。由于 1 wt% ZS 负载的 P（VDF-TrFE）薄膜具有很高的压电性，因此被进一步用于机械能收集和各种机械传感应用。由该薄膜制成的压电纳米发电机输出功率密度高（50 μW cm-2），效率高达 83.5%。

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来源期刊

Sustainable Energy & Fuels Energy-Energy Engineering and Power Technology

CiteScore

10.00

自引率

3.60%

发文量

394

期刊介绍： Sustainable Energy & Fuels will publish research that contributes to the development of sustainable energy technologies with a particular emphasis on new and next-generation technologies.