Screen Printed Antennas on Fiber-Based Substrates for Sustainable HF RFID Assisted E-Fulfilment Smart Packaging

Intelligent packaging is an emerging technology, aiming to improve the standard communication function of packaging. Radio frequency identification (RFID) assisted smart packaging is of high interest, but the uptake is limited as the market needs cost-efficient and sustainable applications. The inte...

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Autores principales: Machiels, Jarne, Appeltans, Raf, Bauer, Dieter Klaus, Segers, Elien, Henckens, Zander, Van Rompaey, Wouter, Adons, Dimitri, Peeters, Roos, Geiβler, Marie, Kuehnoel, Katrin, Tempel, Lydia, Weissbach, Thomas, Hübler, Arved Carl, Verma, Akash, Ferraris, Eleonora, Deferme, Wim, Buntinx, Mieke
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8509514/
https://www.ncbi.nlm.nih.gov/pubmed/34639912
http://dx.doi.org/10.3390/ma14195500
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author Machiels, Jarne
Appeltans, Raf
Bauer, Dieter Klaus
Segers, Elien
Henckens, Zander
Van Rompaey, Wouter
Adons, Dimitri
Peeters, Roos
Geiβler, Marie
Kuehnoel, Katrin
Tempel, Lydia
Weissbach, Thomas
Hübler, Arved Carl
Verma, Akash
Ferraris, Eleonora
Deferme, Wim
Buntinx, Mieke
author_facet Machiels, Jarne
Appeltans, Raf
Bauer, Dieter Klaus
Segers, Elien
Henckens, Zander
Van Rompaey, Wouter
Adons, Dimitri
Peeters, Roos
Geiβler, Marie
Kuehnoel, Katrin
Tempel, Lydia
Weissbach, Thomas
Hübler, Arved Carl
Verma, Akash
Ferraris, Eleonora
Deferme, Wim
Buntinx, Mieke
author_sort Machiels, Jarne
collection PubMed
description Intelligent packaging is an emerging technology, aiming to improve the standard communication function of packaging. Radio frequency identification (RFID) assisted smart packaging is of high interest, but the uptake is limited as the market needs cost-efficient and sustainable applications. The integration of screen printed antennas and RFID chips as smart labels in reusable cardboard packaging could offer a solution. Although paper is an interesting and recyclable material, printing on this substrate is challenging as the ink conductivity is highly influenced by the paper properties. In this study, the best paper/functional silver ink combinations were first selected out of 76 paper substrates based on the paper surface roughness, air permeance, sheet resistance and SEM characterization. Next, a flexible high frequency RFID chip (13.56 MHz) was connected on top of screen printed antennas with a conductive adhesive. Functional RFID labels were integrated in cardboard packaging and its potential application as reusable smart box for third party logistics was tested. In parallel, a web-based software application mimicking its functional abilities in the logistic cycle was developed. This multidisciplinary approach to developing an easy-scalable screen printed antenna and RFID-assisted smart packaging application is a good example for future implementation of hybrid electronics in sustainable smart packaging.
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spelling pubmed-85095142021-10-13 Screen Printed Antennas on Fiber-Based Substrates for Sustainable HF RFID Assisted E-Fulfilment Smart Packaging Machiels, Jarne Appeltans, Raf Bauer, Dieter Klaus Segers, Elien Henckens, Zander Van Rompaey, Wouter Adons, Dimitri Peeters, Roos Geiβler, Marie Kuehnoel, Katrin Tempel, Lydia Weissbach, Thomas Hübler, Arved Carl Verma, Akash Ferraris, Eleonora Deferme, Wim Buntinx, Mieke Materials (Basel) Article Intelligent packaging is an emerging technology, aiming to improve the standard communication function of packaging. Radio frequency identification (RFID) assisted smart packaging is of high interest, but the uptake is limited as the market needs cost-efficient and sustainable applications. The integration of screen printed antennas and RFID chips as smart labels in reusable cardboard packaging could offer a solution. Although paper is an interesting and recyclable material, printing on this substrate is challenging as the ink conductivity is highly influenced by the paper properties. In this study, the best paper/functional silver ink combinations were first selected out of 76 paper substrates based on the paper surface roughness, air permeance, sheet resistance and SEM characterization. Next, a flexible high frequency RFID chip (13.56 MHz) was connected on top of screen printed antennas with a conductive adhesive. Functional RFID labels were integrated in cardboard packaging and its potential application as reusable smart box for third party logistics was tested. In parallel, a web-based software application mimicking its functional abilities in the logistic cycle was developed. This multidisciplinary approach to developing an easy-scalable screen printed antenna and RFID-assisted smart packaging application is a good example for future implementation of hybrid electronics in sustainable smart packaging. MDPI 2021-09-23 /pmc/articles/PMC8509514/ /pubmed/34639912 http://dx.doi.org/10.3390/ma14195500 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Machiels, Jarne
Appeltans, Raf
Bauer, Dieter Klaus
Segers, Elien
Henckens, Zander
Van Rompaey, Wouter
Adons, Dimitri
Peeters, Roos
Geiβler, Marie
Kuehnoel, Katrin
Tempel, Lydia
Weissbach, Thomas
Hübler, Arved Carl
Verma, Akash
Ferraris, Eleonora
Deferme, Wim
Buntinx, Mieke
Screen Printed Antennas on Fiber-Based Substrates for Sustainable HF RFID Assisted E-Fulfilment Smart Packaging
title Screen Printed Antennas on Fiber-Based Substrates for Sustainable HF RFID Assisted E-Fulfilment Smart Packaging
title_full Screen Printed Antennas on Fiber-Based Substrates for Sustainable HF RFID Assisted E-Fulfilment Smart Packaging
title_fullStr Screen Printed Antennas on Fiber-Based Substrates for Sustainable HF RFID Assisted E-Fulfilment Smart Packaging
title_full_unstemmed Screen Printed Antennas on Fiber-Based Substrates for Sustainable HF RFID Assisted E-Fulfilment Smart Packaging
title_short Screen Printed Antennas on Fiber-Based Substrates for Sustainable HF RFID Assisted E-Fulfilment Smart Packaging
title_sort screen printed antennas on fiber-based substrates for sustainable hf rfid assisted e-fulfilment smart packaging
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8509514/
https://www.ncbi.nlm.nih.gov/pubmed/34639912
http://dx.doi.org/10.3390/ma14195500
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