Laser-Induced Graphene, Fused Filament Fabrication, and Aerosol Jet Printing for Realizing Conductive Elements of UHF RFID Antennas

Autor:	Francesco Paolo Chietera, Riccardo Colella, Akash Verma, Eleonora Ferraris, Carola Esposito Corcione, Carmen L. Moraila-Martinez, Denice Gerardo, Yann Houeix Acid, Almudena Rivadeneyra, Luca Catarinucci
Přispěvatelé:	Chietera, F. P., Colella, R., Verma, A., Ferraris, E., Esposito Corcione, Carola., Moraila-Martinez, C. L., Gerardo, D., Acid, Y. H., Rivadeneyra, A., Catarinucci, L.
Jazyk:	angličtina
Rok vydání:	2022
Předmět:	RFID Three-dimensional printing Computer Networks and Communications LIG Field-flow fractionation Printed Electronic Three-dimensional display 3D printed antenna Aerosol Jet Printing Antenna RFID LIG Aerosol Jet Printing FFF 3D printed antennas Printed Electronics Electroplating Electroplating FFF Ink Substrate Instrumentation Aerosol
Popis:	In this work, three promising Additive Manufacturing (AM)/3D-printing technologies, able to realize conductive elements, are adopted in the realization of antennas. The selected techniques are Fused Filament Fabrication (FFF), Aerosol Jet® Printing (AJ®P), and Laser-Induced Graphene (LIG), which have been compared by measuring the performance of an ultrahigh (UHF) radiofrequency identification (RFID) tag, specifically designed, and realized for the scope. Results have also been analyzed against to data obtained by a reference sample realized in Aluminum. The FFF tag has been manufactured by extruding the Electrifi conductive filament over an ABS printed substrate, used also for the AJ®P-made antenna. Conversely, the LIG tag has been produced by laser-burning a Kapton® polyimide sheet. All the tested technologies, each one with its pros and cons, allowed to realize working prototypes, even if, as expected, with performance lower than the comparison sample. An electroplating process has been also adopted to increase conductivity, with improvements in the FFF prototype. The obtained results are quite satisfactory. Those related to LIG technology do not yet guarantee performance comparable to the other techniques. Nevertheless, the prospect of creating “green” and cost-effective antennas pushes towards further studies, already underway, which include the study of antenna shapes more suitable for the specific technique as well as process optimizations to increase conductivity. ispartof: IEEE Journal of Radio Frequency Identification vol:6 status: Published online
Databáze:	OpenAIRE
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