基于半导体聚合物 PEDOT 的电活性伪三层膜建模

IF 3.7 3区材料科学 Q1 INSTRUMENTS & INSTRUMENTATION

Smart Materials and Structures Pub Date : 2024-08-14 DOI:10.1088/1361-665x/ad6ab8

M Tixier, J Pouget

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引用次数: 0

摘要

电活性聚合物是一种智能材料，可用作致动器、传感器或能量收集器。我们的研究重点是基于半导体聚合物 PEDOT 的假三层：中央部分由两种相互渗透的聚合物组成，PEDOT 在两侧聚合；整个叶片用离子液体饱和。这样就形成了一个伪三层结构，两个外层充当电极。当施加电场时，阳离子向负电极移动，使其膨胀，而相反一侧的体积则减小；这导致带材弯曲。反之，薄膜偏转会在电极之间产生电位差。我们利用不可逆过程的热力学建立了这一系统的模型和构成关系；我们得到了开尔文-伏依格特应力-应变关系以及广义傅里叶定律和达西定律。我们在静态情况下验证了我们的模型：我们将后者应用于在恒温条件下受到连续电势差影响的悬臂叶片。我们绘制了不同数量的曲线，并评估了叶尖位移和阻挡力。我们的结果与文献中公布的实验数据一致。

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Modeling of an electro-active pseudo-trilayer based on PEDOT, a semi-conductor polymer

Electroactive polymers are smart materials that can be used as actuators, sensors, or energy harvesters. We focus on a pseudo trilayer based on PEDOT, a semiconductor polymer: the central part consists of two interpenetrating polymers and PEDOT is polymerized on each side; the whole blade is saturated with an ionic liquid. A pseudo trilayer is obtained, the two outer layers acting as electrodes. When an electric field is applied, the cations move towards the negative electrode, making it swell, while the volume decreases on the opposite side; this results in the bending of the strip. Conversely, the film deflection generates an electric potential difference between the electrodes. We model this system and establish its constitutive relations using the thermodynamics of irreversible processes; we obtain a Kelvin–Voigt stress–strain relation and generalized Fourier’s and Darcy’s laws. We validate our model in the static case: we apply the latter to a cantilever blade subject to a continuous potential electric difference at the constant temperature. We draw the profiles of the different quantities and evaluate the tip displacement and the blocking force. Our results agree with the experimental data published in the literature.

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来源期刊

Smart Materials and Structures 工程技术-材料科学：综合

CiteScore

7.50

自引率

12.20%

发文量

317

审稿时长

3 months

期刊介绍： Smart Materials and Structures (SMS) is a multi-disciplinary engineering journal that explores the creation and utilization of novel forms of transduction. It is a leading journal in the area of smart materials and structures, publishing the most important results from different regions of the world, largely from Asia, Europe and North America. The results may be as disparate as the development of new materials and active composite systems, derived using theoretical predictions to complex structural systems, which generate new capabilities by incorporating enabling new smart material transducers. The theoretical predictions are usually accompanied with experimental verification, characterizing the performance of new structures and devices. These systems are examined from the nanoscale to the macroscopic. SMS has a Board of Associate Editors who are specialists in a multitude of areas, ensuring that reviews are fast, fair and performed by experts in all sub-disciplines of smart materials, systems and structures. A smart material is defined as any material that is capable of being controlled such that its response and properties change under a stimulus. A smart structure or system is capable of reacting to stimuli or the environment in a prescribed manner. SMS is committed to understanding, expanding and dissemination of knowledge in this subject matter.