Highly Flexible Polyaniline-Based Implantable Electrode Materials for Neural Sensing/Stimulation Applications

N. Almufleh, A. Al-Othman, Zaid Alani, M. Al-Sayah, H. Al-Nashash
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引用次数: 5

Abstract

Implantable bioelectrodes have the potential to advance neural sensing and muscle stimulation, mainly in patients with peripheral nerve injuries. They function as the transducer at the interface between the damaged nerve and the muscle which is controlled by that nerve. This work reports the fabrication and characterization of novel, low-cost, flexible bioelectrodes based on polyaniline (PANI) and supported with silicone polymer. The fabricated electrodes were evaluated for their electrical and mechanical characteristics. PANI was used as the main transducer component in this fabrication. The characterization methods included electrical conductivity, capacitive behavior, long-term electrical impedance, and mechanical evaluation. The results of the fabricated PANI-silicone-based samples displayed a bulk impedance of 0.6 kΩ with an impedance of 1.6 kΩ at the frequency of 1 kHz. Furthermore, the bioelectrodes showed a charge storage capacity range from 0.0730 to 4.3124 C/cm2. The samples were stable when subjected to cyclic voltammetry tests. The bioelectrodes revealed very flexible mechanical properties as observed from the value of Young’s modulus (in the order of MPa) which was less than that of skin. Hence, the PANI-based bioelectrodes reported herein showed promising electrochemical characteristics with high flexibility.
用于神经传感/刺激应用的高柔性聚苯胺基植入式电极材料
植入式生物电极具有促进神经传感和肌肉刺激的潜力,主要用于周围神经损伤患者。它们在受损神经和由神经控制的肌肉之间起到换能器的作用。本文报道了一种新型的、低成本的、基于聚苯胺(PANI)和硅酮聚合物支撑的柔性生物电极的制造和表征。对所制备电极的电学和力学特性进行了评价。聚苯胺被用作主要的换能器元件。表征方法包括电导率、电容行为、长期电阻抗和力学评价。制备的聚苯胺硅基样品在1 kHz频率下阻抗为1.6 kΩ,体阻抗为0.6 kΩ。此外,生物电极的电荷存储容量范围为0.0730 ~ 4.3124 C/cm2。经循环伏安试验,样品稳定。从杨氏模量(MPa数量级)来看,生物电极显示出非常灵活的力学性能,比皮肤的力学性能要小。因此,本文报道的聚苯胺基生物电极具有良好的电化学特性和高柔韧性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
0.60
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