A Nanoporous Carbon‐MXene Heterostructured Nanocomposite‐Based Epidermal Patch for Real‐Time Biopotentials and Sweat Glucose Monitoring (Adv. Funct. Mater. 49/2022)

Hybrid Epidermal Biosensing System In article number 2208344, Jae Yeong Park and co‐workers reported in‐depth investigations of electrophysiological parameters with precise glucose level determination using a butterfly inspired hybrid epidermal biosensing (bi‐HEB) patch. As a portable smart healthca...

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Veröffentlicht in:	Advanced functional materials 2022-12, Vol.32 (49), p.n/a
Hauptverfasser:	Zahed, Md Abu, Sharifuzzaman, Md, Yoon, Hyosang, Asaduzzaman, Md, Kim, Dong Kyun, Jeong, Seonghoon, Pradhan, Gagan Bahadur, Shin, Young Do, Yoon, Sang Hyuk, Sharma, Sudeep, Zhang, Shipeng, Park, Jae Yeong
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Sprache:	eng
Schlagworte:	biopotential Electrocardiography Glucose Hybrid systems Materials science Monitoring MXenes Nanocomposites nanoporous carbons
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container_title	Advanced functional materials
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creator	Zahed, Md Abu Sharifuzzaman, Md Yoon, Hyosang Asaduzzaman, Md Kim, Dong Kyun Jeong, Seonghoon Pradhan, Gagan Bahadur Shin, Young Do Yoon, Sang Hyuk Sharma, Sudeep Zhang, Shipeng Park, Jae Yeong
description	Hybrid Epidermal Biosensing System In article number 2208344, Jae Yeong Park and co‐workers reported in‐depth investigations of electrophysiological parameters with precise glucose level determination using a butterfly inspired hybrid epidermal biosensing (bi‐HEB) patch. As a portable smart healthcare monitoring system, the NPC@MXene‐based bi‐HEB patch was successfully paired with a miniaturized printed circuit board to assess glucose and electrocardiogram of individuals during exercise.
doi_str_mv	10.1002/adfm.202270280
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subjects	biopotential Electrocardiography Glucose Hybrid systems Materials science Monitoring MXenes Nanocomposites nanoporous carbons
title	A Nanoporous Carbon‐MXene Heterostructured Nanocomposite‐Based Epidermal Patch for Real‐Time Biopotentials and Sweat Glucose Monitoring (Adv. Funct. Mater. 49/2022)
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