Subcellular Neural Probes from Single-Crystal Gold Nanowires

Authors
Kang, MijeongJung, SeungmoonZhang, HuananKang, TaejoonKang, HosukYoo, YoungdongHong, Jin-PyoAhn, Jae-PyoungKwak, JuhyounJeon, DaejongKotov, Nicholas A.Kim, Bongsoo
Issue Date
2014-08
Publisher
AMER CHEMICAL SOC
Citation
ACS NANO, v.8, no.8, pp.8182 - 8189
Abstract
Size reduction of neural electrodes is essential for improving the functionality of neuroprosthetic devices, developing potent therapies for neurological and neurodegenerative diseases, and long-term brain computer interfaces. Typical neural electrodes are micromanufactured devices with dimensions ranging from tens to hundreds of micrometers. Their further miniaturization is necessary to reduce local tissue damage and chronic immunological reactions of the brain. Here we report the neural electrode with subcellular dimensions based on single-crystalline gold nanowires (NWs) with a diameter of similar to 100 nm. Unique mechanical and electrical properties of defect-free gold NWs enabled their implantation and recording of single neuron-activities in a live mouse brain despite a similar to 50 x reduction of the size compared to the closest analogues. Reduction of electrode dimensions enabled recording of neural activity with improved spatial resolution and differentiation of brain activity in response to different social situations for mice. The successful localization of the epileptic seizure center was also achieved using a multielectrode probe as a demonstration of the diagnostics potential of NW electrodes. This study demonstrated the realism of single-neuron recording using subellular-sized electrodes that may be considered a pivotal point for use in diverse studies of chronic brain diseases.
Keywords
SURFACES; AU; MICROELECTRODES; DEPOSITION; SURFACES; AU; MICROELECTRODES; DEPOSITION; gold nanowire; nanoelectrode; neural implants; neuroprosthetics; brain-machine interface; neurodegenerative disease; epilepsy; subcellular-sized implants; BRAIN initiative; single-neuron detection; electrode miniaturization; long-term neural recordings; paralysis
ISSN
1936-0851
URI
https://pubs.kist.re.kr/handle/201004/126521
DOI
10.1021/nn5024522
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KIST Article > 2014
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