Araromi Oluwaseun A, Rosset Samuel, Shea Herbert R
Microsystems for Space Technologies Laboratory (LMTS), École Polytechnique Fédérale de Lausanne (EPFL), Rue de la Maladière 71B, Neuchâtel 2000, Switzerland.
ACS Appl Mater Interfaces. 2015 Aug 19;7(32):18046-53. doi: 10.1021/acsami.5b04975. Epub 2015 Aug 5.
A key element in stretchable actuators, sensors, and systems based on elastomer materials are compliant electrodes. While there exist many methodologies for fabricating electrodes on dielectric elastomers, very few succeed in achieving high-resolution patterning over large areas. We present a novel approach for the production of mechanically robust, high-resolution compliant electrodes for stretchable silicone elastomer actuators and sensors. Cast, 2-50 μm thick poly(dimethylsiloxane) (PDMS)-carbon composite layers are patterned by laser ablation and subsequently bonded to a PDMS membrane by oxygen plasma activation. The technique affords great design flexibility and high resolution and readily scales to large-area arrays of devices. We validate our methodology by producing arrays of actuators and sensors on up to A4-size substrates, reporting on microscale dielectric elastomer actuators (DEA) generating area strains of over 25%, and interdigitated capacitive touch sensors with high sensitivity yet insensitivity to substrate stretching. We demonstrate the ability to cofabricate highly integrated multifunctional transducers using the same process flow, showing the methodology's promise in realizing sophisticated and reliable complex stretchable devices with fine features over large areas.
基于弹性体材料的可拉伸致动器、传感器及系统中的一个关键要素是柔顺电极。虽然存在许多在介电弹性体上制造电极的方法,但很少有方法能成功在大面积上实现高分辨率图案化。我们提出了一种新颖的方法,用于生产用于可拉伸硅橡胶弹性体致动器和传感器的机械坚固、高分辨率的柔顺电极。通过激光烧蚀对浇铸的2 - 50微米厚的聚二甲基硅氧烷(PDMS)-碳复合层进行图案化,随后通过氧等离子体活化将其与PDMS膜键合。该技术具有很大的设计灵活性和高分辨率,并且易于扩展到大面积的器件阵列。我们通过在高达A4尺寸的基板上生产致动器和传感器阵列来验证我们的方法,报告了产生超过25%面积应变的微尺度介电弹性体致动器(DEA)以及对基板拉伸不敏感但具有高灵敏度的叉指式电容触摸传感器。我们展示了使用相同工艺流程共同制造高度集成的多功能换能器的能力,表明该方法在实现具有精细特征的大面积复杂且可靠的可拉伸器件方面具有潜力。
