Extended gate field-effect-transistor for sensing cortisol stress hormone

Wearable, real-time devices that can monitor hormones are important for personalized healthcare. Here, a platinum/graphene aptamer extended gate field effect transistor is shown to detect cortisol, the primary stress hormone, in physiological fluid.

Bibliographic Details
Main Authors:	Shokoofeh Sheibani, Luca Capua, Sadegh Kamaei, Sayedeh Shirin Afyouni Akbari, Junrui Zhang, Hoel Guerin, Adrian M. Ionescu
Format:	Article
Language:	English
Published:	Nature Publishing Group 2021-01-01
Series:	Communications Materials
Online Access:	https://doi.org/10.1038/s43246-020-00114-x

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spelling	doaj-ad7626bd7aa344dab2ad3e1b0e80efbc2021-01-24T12:18:09ZengNature Publishing GroupCommunications Materials2662-44432021-01-012111010.1038/s43246-020-00114-xExtended gate field-effect-transistor for sensing cortisol stress hormoneShokoofeh Sheibani0Luca Capua1Sadegh Kamaei2Sayedeh Shirin Afyouni Akbari3Junrui Zhang4Hoel Guerin5Adrian M. Ionescu6Nanolab, Ecole Polytechnique Fédérale de LausanneNanolab, Ecole Polytechnique Fédérale de LausanneNanolab, Ecole Polytechnique Fédérale de LausanneAdvanced NEMS Laboratory, Ecole Polytechnique Fédérale de LausanneXsensio SAXsensio SANanolab, Ecole Polytechnique Fédérale de LausanneWearable, real-time devices that can monitor hormones are important for personalized healthcare. Here, a platinum/graphene aptamer extended gate field effect transistor is shown to detect cortisol, the primary stress hormone, in physiological fluid.https://doi.org/10.1038/s43246-020-00114-x
collection	DOAJ
language	English
format	Article
sources	DOAJ
author	Shokoofeh Sheibani Luca Capua Sadegh Kamaei Sayedeh Shirin Afyouni Akbari Junrui Zhang Hoel Guerin Adrian M. Ionescu
spellingShingle	Shokoofeh Sheibani Luca Capua Sadegh Kamaei Sayedeh Shirin Afyouni Akbari Junrui Zhang Hoel Guerin Adrian M. Ionescu Extended gate field-effect-transistor for sensing cortisol stress hormone Communications Materials
author_facet	Shokoofeh Sheibani Luca Capua Sadegh Kamaei Sayedeh Shirin Afyouni Akbari Junrui Zhang Hoel Guerin Adrian M. Ionescu
author_sort	Shokoofeh Sheibani
title	Extended gate field-effect-transistor for sensing cortisol stress hormone
title_short	Extended gate field-effect-transistor for sensing cortisol stress hormone
title_full	Extended gate field-effect-transistor for sensing cortisol stress hormone
title_fullStr	Extended gate field-effect-transistor for sensing cortisol stress hormone
title_full_unstemmed	Extended gate field-effect-transistor for sensing cortisol stress hormone
title_sort	extended gate field-effect-transistor for sensing cortisol stress hormone
publisher	Nature Publishing Group
series	Communications Materials
issn	2662-4443
publishDate	2021-01-01
description	Wearable, real-time devices that can monitor hormones are important for personalized healthcare. Here, a platinum/graphene aptamer extended gate field effect transistor is shown to detect cortisol, the primary stress hormone, in physiological fluid.
url	https://doi.org/10.1038/s43246-020-00114-x
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Extended gate field-effect-transistor for sensing cortisol stress hormone

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