Mickaël Pruvost, W. J. Smit, C. Monteux, P. Poulin, A. Colin
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引用次数: 9
摘要
我们提出了用于振动能量收集应用的具有优异性能的电致伸缩材料。开发的材料由多孔炭黑复合材料组成,该复合材料使用油包水乳液进行加工。与绝缘层相结合,所研究的结构表现出较高的有效相对介电常数(在100 Hz时高达182)和极低的有效电导率(低至2.53 10−8 S m−1)。在32V的偏置电场下,它们可以产生功率密度为0.38 W m−3的电能来响应机械振动。它们在能量收集应用方面的表现远远高于该领域的参考聚合物材料,包括通过重化学工艺合成的氟化共聚和三元聚合物。本材料的生产过程以无害和低成本的化学品为基础。软介电材料具有高度柔性(杨氏模量为~1 MPa),因此也适用于高灵敏度电容传感器。
Microporous electrostrictive materials for vibrational energy harvesting
We present electrostrictive materials with excellent properties for vibrational energy harvesting applications. The developed materials consist of a porous carbon black composite, which is processed using water-in-oil emulsions. In combination with an insulating layer, the investigated structures exhibit a high effective relative dielectric permittivity (up to 182 at 100 Hz) with very low effective conductivity (down to 2.53 10−8 S m−1). They can generate electrical energy in response to mechanical vibrations with a power density of 0.38 W m−3 under an applied bias electric field of 32 V. They display figures or merit for energy harvesting applications well above reference polymer materials in the field, including fluorinated co- and ter-polymers synthetized by heavy chemical processes. The production process of the present materials is based on non hazardous and low-cost chemicals. The soft dielectric materials are highly flexible (Young’s modulus of ∼1 MPa) making them also suited for highly sensitive capacitive sensors.
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