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High Charge Storage Capacity Micro Electrode Array on a Wire for Implantable Neuromuscular Applications

机译：用于植入式神经肌肉应用的电线上的高电荷存储容量微电极阵列

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In this paper, we demonstrate fabrication of high charge storage capacity microelectrode arrays (MEAs) on a thin gold wire, targeted towards implantable neuromuscular applications. The patterned wire is flexible and can be brought in contact with the targeted area with ease unlike traditional MEAs. The key contribution here is the demonstration of wire patterning, followed by electro chemical deposition of PEDOT (Poly 3,4-Ethylene Dioxy Thiophene)/Functionalized Multi walled Carbon Nanotubes (FMWCNT) hybrid nano-composite material in selected areas that resulted in biocompatible, high charge storage capacity (CSC) and lower electrode interface impedance MEA on wire.

机译：在本文中，我们证明了薄金线上的高电荷存储容量微电极阵列（MEA）的制造，靶向可植入的神经肌肉应用。图案化线是柔性的，并且可以轻松地与传统的MEES易于接触目标区域。这里的关键贡献是线图案化的演示，然后是佩特的电气化学沉积（聚3,4-亚乙基二氧噻吩）/官能化的多壁碳纳米管（FMWNT）杂化纳米复合材料在所选区域中导致生物相容性的，电线上的高电荷存储容量（CSC）和下电极接口阻抗MEA。

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《International Workshop on the Physics of Semiconductor Devices 》|2019年|lvii 567-1299 pages :|共7页
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D. V. Santhosh Kumar Gunapu; Siva Rama Krishna Vanjari;
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中图分类 O475-532;
关键词
Electrode Array; Implantable Neuromuscular; Applications;

机译：电极阵列;可植入神经肌肉;应用;

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2. Understanding charge transfer on the clinically used conical Utah electrode array: charge storage capacity, electrochemical impedance spectroscopy and effective electrode area [J] . Alexander R Harris Journal of neural engineering . 2021 ,第2期

机译：了解临床用锥形犹他理电极阵列的电荷转移：电荷存储容量，电化学阻抗光谱和有效电极区域
3. Effect of waste cellulose fibres on the charge storage capacity of polypyrrole and graphene/polypyrrole electrodes for supercapacitor application [J] . De Adhikari A., Oraon R., Tiwari S. K., RSC Advances . 2015 ,第35期

机译：废纤维素纤维对超级电容器用聚吡咯和石墨烯/聚吡咯电极的电荷存储容量的影响
4. Design considerations in the development and application of microdisc electrode arrays (MDEAs) for implantable biosensors [J] . Abdur Rub Abdur Rahman, Anthony Guiseppi-Elie Biomedical Microdevices . 2009 ,第3期

机译：开发和应用可植入生物传感器的微盘电极阵列（MDEA）的设计注意事项
5. High Charge Storage Capacity Micro Electrode Array on a Wire for Implantable Neuromuscular Applications [C] . D. V. Santhosh Kumar Gunapu, Siva Rama Krishna Vanjari International Workshop on the Physics of Semiconductor Devices . 2019

机译：用于植入式神经肌肉应用的电线上的高电荷存储容量微电极阵列
6. Improved 2D and 3D resistivity surveys using buried electrodes and optimized arrays: The multi-electrode resistivity implant technique (MERIT) [D] . Kiflu, Henok Gidey. 2016

机译：使用埋入式电极和优化的阵列改进的2D和3D电阻率测量：多电极电阻率注入技术（MERIT）
7. Increase in Interfacial Adhesion and Electrochemical Charge Storage Capacity of Polypyrrole on Au Electrodes Using Polyethyleneimine [O] . Kyung-Geun Kim, Sung Yeol Kim -1

机译：聚乙烯亚胺提高金电极上聚吡咯的界面粘附力和电化学电荷存储能力
8. How to achieve sub-cellular-level spatial resolution and sub-spike-level temporal resolution at same time is still a technical challenge in neural mapping while both information are critically important to advance neural science. Here, we present penetrating arrays consisted of single-neuron level transparent microelectrodes with low impedance coating which could realize the high spatial and temporal resolution at the same time. These 32-channel transparent penetrating electrodes with record-small site area, 225 µm², have a low impedance of ~ 149 kΩ at 1 kHz, an adequate charge injection limit of ± 0.76 mC/cm2, and up to 100 yield. Mechanical bending test result show robust mechanism up to 1000 bending cycles. After a temporary stiffen with polyethylene glycol, this electrode achieved great insertion result without any buckling or deformation. Together these results establish a novel neurotechnology - penetrating arrays of transparent, flexible bilayernanomeshMicroelectrodes which possess great potential for brain research [O] . Zhan Shi -1

机译：如何在同一时间实现子蜂窝级空间分辨率和子峰值级时间分辨率在神经映射中仍然是技术挑战，而两个信息对于推进神经科学来说都很重要。这里，我们提出穿透阵列由单神经元级透明微电极组成，具有低阻抗涂层，其可以同时实现高空间和时间分辨率。这些32通道透明穿透电极具有记录小的部位面积，225μm²的低阻抗在1 kHz的〜149kΩ的低阻抗，充足的电荷注入极限为±0.76mc / cm2，率高达100％。机械弯曲试验结果显示高达1000个弯曲循环的强大机制。在用聚乙二醇进行临时变硬后，该电极实现了很大的插入结果，而无需任何屈曲或变形。这些结果共同建立了一种新型神经技术 - 穿透透明，灵活的双层圆形脉冲阵列，其具有巨大的大脑研究潜力

High Charge Storage Capacity Micro Electrode Array on a Wire for Implantable Neuromuscular Applications

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