Hybrid flexible NFC sensor on paper

Everyday healthcare objects have become the focus of interdisciplinary research lines, which aim to monitor human biomedical parameters by means of ergonomic and, ideally, environmentally sustainable sensors. Here, a hybrid system, based on both solution processed- and conventional silicon- technolo...

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Veröffentlicht in:	IEEE journal on flexible electronics 2023-01, Vol.2 (1), p.1-1
Hauptverfasser:	Conti, Silvia, Nepa, Francesco, Di Pascoli, Stefano, Brunetti, Irene, Pimpolari, Lorenzo, Song, Xiuju, Parvez, Khaled, Lomeri, Hamed Javanbakht, De Rossi, Francesca, Lucarelli, Giulia, Polino, Giuseppina, Brown, Thomas, Pascual, Laura Ferrer, Bernicola, Maria del Pilar, Del Corro, Elena, Marin, Enrique Gonzalez, Sanchez, Sandy, Hagfeldt, Anders, Callegari, Christian, Pieri, Francesco, Macucci, Massimo, Massaro, Michele, Iannaccone, Giuseppe, Garrido, Jose Antonio, Brunetti, Francesca, Casiraghi, Cinzia, Fiori, Gianluca
Format:	Artikel
Sprache:	eng
Schlagworte:	Electrodes Graphene Humidity Ink NFC sensor paper substrate PEDOT:PSS Robot sensing systems strain Substrates Transponders
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creator	Conti, Silvia Nepa, Francesco Di Pascoli, Stefano Brunetti, Irene Pimpolari, Lorenzo Song, Xiuju Parvez, Khaled Lomeri, Hamed Javanbakht De Rossi, Francesca Lucarelli, Giulia Polino, Giuseppina Brown, Thomas Pascual, Laura Ferrer Bernicola, Maria del Pilar Del Corro, Elena Marin, Enrique Gonzalez Sanchez, Sandy Hagfeldt, Anders Callegari, Christian Pieri, Francesco Macucci, Massimo Massaro, Michele Iannaccone, Giuseppe Garrido, Jose Antonio Brunetti, Francesca Casiraghi, Cinzia Fiori, Gianluca
description	Everyday healthcare objects have become the focus of interdisciplinary research lines, which aim to monitor human biomedical parameters by means of ergonomic and, ideally, environmentally sustainable sensors. Here, a hybrid system, based on both solution processed- and conventional silicon- technology, is reported. In particular, a strain and a pH sensor are developed based on graphene inks, whilst a humidity detector is implemented using a poly(3,4-ethylenedioxythiophene)-poly(styrenesulfonate) (PEDOT:PSS). The printed sensors are integrated into a demonstrator consisting of a silicon near field communication (NFC) transponder chip with logic and transceiver capabilities, bonded on a circuit board with inkjet-printed components on a paper substrate: an antenna and a power supply (in addition to the sensor). This proof-of-concept seeks to address the needs for future circular economy, as well as those for cheap, flexible and lightweight, multi-functional electronics.
doi_str_mv	10.1109/JFLEX.2023.3238682
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subjects	Electrodes Graphene Humidity Ink NFC sensor paper substrate PEDOT:PSS Robot sensing systems strain Substrates Transponders
title	Hybrid flexible NFC sensor on paper
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