With the surge of interest in miniaturized implanted medical devices (IMDs), implantable power sources with small dimensions and biocompatibility are in high demand. Implanted battery/supercapacitor devices are commonly packaged within a case that occupies a large volume, making miniaturization difficult. In this study, we demonstrate a polymer electrolyte-enabled biocompatible magnesium-air battery device with a total thickness of approximately 300 μm. It consists of a biocompatible polypyrrole-para(toluene sulfonic acid) cathode and a bioresorbable magnesium alloy anode. The biocompatible electrolyte used is made of choline nitrate (ionic liquid) embedded in a biopolymer, chitosan. This polymer electrolyte is mechanically robust and offers a high ionic conductivity of 8.9 x 10-3 S cm-1. The assembled battery delivers a maximum volumetric power density of 3.9 W L-1, which is sufficient to drive some types of IMDs, such as cardiac pacemakers or biomonitoring systems. This miniaturized, biocompatible magnesium-air battery may pave the way to a future generation of implantable power sources.
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机译:随着对小型植入式医疗设备(IMD)的兴趣激增,对具有小尺寸和生物相容性的可植入电源的需求量很大。植入的电池/超级电容器装置通常被包装在占据大体积的壳体内,从而难以小型化。在这项研究中,我们演示了一种具有聚合物电解质功能的生物相容性镁空气电池装置,其总厚度约为300μm。它由具有生物相容性的聚吡咯对(甲苯磺酸)阴极和可生物吸收的镁合金阳极组成。所使用的生物相容性电解质由嵌入生物聚合物壳聚糖中的硝酸胆碱(离子液体)制成。该聚合物电解质具有机械坚固性,并提供8.9 x 10-3 S cm-1的高离子电导率。电池组的最大体积功率密度为3.9 W L-1,足以驱动某些类型的IMD,例如心脏起搏器或生物监测系统。这种小型的生物相容性镁空气电池可以为下一代可植入电源铺平道路。
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