Wenwen Yi scite author profile

This paper presents a novel microelectrode arrays using high-temperature grown vertically aligned carbon nanotubes (CNTs) integrated on a flexible and biocompatible parylene substrate. A simple microfabrication process is proposed to unite the high quality vertical CNTs grown at high temperature with the heat sensitive parylene substrate in a highly controllable manner. Briefly, the CNTs electrode is encapsulated by two layers of parylene and the device is released using xenon difluoride (XeF2). The process is compatible with wafer-scale post complementary metal oxide semiconductor integration. Lower impedance and larger interfacial capacitance have been demonstrated using CNTs compared to a Pt electrode. The flexible CNT electrodes have been utilized for extracellular neuronal recording and stimulation in rats. The signal-to-noise ratio of the device is about 12.5. The threshold voltage for initiating action potential is about 0.5 V.

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Flexible 3D carbon nanotubes cuff electrodes as a peripheral nerve interface

Tian

Chen

et al. 2018

Biomed Microdevices

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The cuff electrode provides a stable interface with peripheral nerves, which has been widely used in basic research and clinical practice. Currently, the cuff electrodes are limited by the planar processing of microfabrication. This paper presents a novel cuff electrode using high-aspect ratio carbon nanotubes (CNTs) integrated on a flexible biocompatible parylene. The microfabrication process unites the high quality vertical CNTs grown at high temperature with the heat sensitive parylene substrate in a highly controllable manner. The fabricated cuff electrodes have been utilized for extracellular nerve stimulation in rats. The experimental results demonstrate the proposed CNT electrode has a better performance than Pt electrode in nerve stimulation. Moreover, the effect of electrode position and stimulation frequency is demonstrated in this paper. This preliminary data indicates that flexible 3D CNTs cuff electrode provides an excellent platform for functional electrical stimulation.

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Wenwen Yi

Electrochemical detection of chloramphenicol using palladium nanoparticles decorated reduced graphene oxide

A strategy of electrochemical simultaneous detection of acetaminophen and levofloxacin in water based on g-C₃N₄ nanosheet-doped graphene oxide

A flexible and implantable microelectrode arrays using high-temperature grown vertical carbon nanotubes and a biocompatible polymer substrate

Flexible 3D carbon nanotubes cuff electrodes as a peripheral nerve interface

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Wenwen Yi

Electrochemical detection of chloramphenicol using palladium nanoparticles decorated reduced graphene oxide

A strategy of electrochemical simultaneous detection of acetaminophen and levofloxacin in water based on g-C3N4 nanosheet-doped graphene oxide

A flexible and implantable microelectrode arrays using high-temperature grown vertical carbon nanotubes and a biocompatible polymer substrate

Flexible 3D carbon nanotubes cuff electrodes as a peripheral nerve interface

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Product

Resources

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A strategy of electrochemical simultaneous detection of acetaminophen and levofloxacin in water based on g-C₃N₄ nanosheet-doped graphene oxide