Artifact-free and high-temporal-resolution in vivo opto-electrophysiology with microLED optoelectrodes

Artifact-free opto-electrophysiology is key for precise modulation and monitoring of individual neurons at high spatio-temporal resolution. The authors present a method for eliminating stimulation artifacts in high-density micro-LED optoelectrodes for accurate functional mapping of local circuits.

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Autores principales: Kanghwan Kim, Mihály Vöröslakos, John P. Seymour, Kensall D. Wise, György Buzsáki, Euisik Yoon
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2020
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Acceso en línea:https://doaj.org/article/cde507ec25644e678de082f9485a7dff
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spelling oai:doaj.org-article:cde507ec25644e678de082f9485a7dff2021-12-02T15:37:14ZArtifact-free and high-temporal-resolution in vivo opto-electrophysiology with microLED optoelectrodes10.1038/s41467-020-15769-w2041-1723https://doaj.org/article/cde507ec25644e678de082f9485a7dff2020-04-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-15769-whttps://doaj.org/toc/2041-1723Artifact-free opto-electrophysiology is key for precise modulation and monitoring of individual neurons at high spatio-temporal resolution. The authors present a method for eliminating stimulation artifacts in high-density micro-LED optoelectrodes for accurate functional mapping of local circuits.Kanghwan KimMihály VöröslakosJohn P. SeymourKensall D. WiseGyörgy BuzsákiEuisik YoonNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-12 (2020)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Kanghwan Kim
Mihály Vöröslakos
John P. Seymour
Kensall D. Wise
György Buzsáki
Euisik Yoon
Artifact-free and high-temporal-resolution in vivo opto-electrophysiology with microLED optoelectrodes
description Artifact-free opto-electrophysiology is key for precise modulation and monitoring of individual neurons at high spatio-temporal resolution. The authors present a method for eliminating stimulation artifacts in high-density micro-LED optoelectrodes for accurate functional mapping of local circuits.
format article
author Kanghwan Kim
Mihály Vöröslakos
John P. Seymour
Kensall D. Wise
György Buzsáki
Euisik Yoon
author_facet Kanghwan Kim
Mihály Vöröslakos
John P. Seymour
Kensall D. Wise
György Buzsáki
Euisik Yoon
author_sort Kanghwan Kim
title Artifact-free and high-temporal-resolution in vivo opto-electrophysiology with microLED optoelectrodes
title_short Artifact-free and high-temporal-resolution in vivo opto-electrophysiology with microLED optoelectrodes
title_full Artifact-free and high-temporal-resolution in vivo opto-electrophysiology with microLED optoelectrodes
title_fullStr Artifact-free and high-temporal-resolution in vivo opto-electrophysiology with microLED optoelectrodes
title_full_unstemmed Artifact-free and high-temporal-resolution in vivo opto-electrophysiology with microLED optoelectrodes
title_sort artifact-free and high-temporal-resolution in vivo opto-electrophysiology with microled optoelectrodes
publisher Nature Portfolio
publishDate 2020
url https://doaj.org/article/cde507ec25644e678de082f9485a7dff
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AT johnpseymour artifactfreeandhightemporalresolutioninvivooptoelectrophysiologywithmicroledoptoelectrodes
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