Twisted and Coiled Carbon Nanotube Yarn Muscle Embedding Ferritin

2022 IEEE Sensors Pub Date : 2022-10-30 DOI:10.1109/SENSORS52175.2022.9967212
Jong Woo Park, Dong Yeop Lee, Seon Jeong Kim
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Abstract

Electrochemical coiled carbon nanotube yarn muscles are expected to be utilized in biosensors, drug delivery, or microsurgery. However, their low tensile actuation due to the limited applying voltage in an aqueous environment restricts further investigations in applications. Here, by embedding an iron-containing protein, called ferritin into a coiled carbon nanotube yarn muscle, the muscle stroke can be increased 10.8 times. The increased tensile contraction originates from the large electrochemical applied potential without cancellation of the stroke resulting from the potential of zero charge shift which is driven by attaching charged ferritins onto CNTs. Performance enhancement by applying biocompatible molecules encourages the potential of the coiled CNT muscle's use in the bio-environment.
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扭曲和盘绕碳纳米管纱线肌肉嵌入铁蛋白
电化学卷曲碳纳米管纱线肌肉有望应用于生物传感器、药物输送或显微外科。然而,由于在水环境中有限的施加电压,它们的低张力驱动限制了在应用中的进一步研究。在这里,通过将一种称为铁蛋白的含铁蛋白嵌入到卷曲的碳纳米管纱线肌肉中,肌肉的行程可以增加10.8倍。拉伸收缩的增加源于较大的电化学施加电位,而没有抵消由将带电铁蛋白附着在碳纳米管上驱动的零电荷位移电位造成的行程。通过应用生物相容性分子来提高性能,鼓励卷曲碳纳米管肌肉在生物环境中的使用潜力。
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2022 IEEE Sensors
2022 IEEE Sensors
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