A Sensing Method based on Elastic Instabilities of Swelllng Hydrogels

D. Kim, D. Beebe
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Abstract

We present a biologically inspired sensing method which can be used to detect toxins or other chemical compounds. We engineer our hydrogels in such a way that an elastic instability is triggered by a designated stimulus. Two different bi-polymer strips are fixed together. When swelling is induced, the differential response of the two gels forming the composite strip causes the strip to bend. If the bending is constrained, an explosive elastic instability can occur if either the constraint is removed or the stored elastic energy is enough to induce fracture. A judicious choice of materials (e.g., degradable adhesive materials specific to certain enzymes or chemicals) and geometric constraints allow for the tuning of the instability. The rapid geometric changes associated with the elastic instability can be easily observed
基于膨胀水凝胶弹性不稳定性的传感方法
我们提出了一种生物学启发的传感方法,可用于检测毒素或其他化合物。我们设计水凝胶的方式是,通过指定的刺激触发弹性不稳定性。两种不同的双聚合物条固定在一起。当引起膨胀时,形成复合条的两种凝胶的不同响应导致条弯曲。如果弯曲受到约束,当约束解除或所储存的弹性能足以引起断裂时,就会发生爆炸弹性失稳。明智地选择材料(例如,特定于某些酶或化学品的可降解粘合剂材料)和几何约束允许调整不稳定性。可以很容易地观察到与弹性失稳相关的快速几何变化
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