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Study on the Impact of Laser Settings on Parameters of Induced Graphene Layers Constituting the Antenna of UHF RFIDLIG Transponders
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Study on the Impact of Laser Settings on Parameters of Induced Graphene Layers Constituting the Antenna of UHF RFIDLIG Transponders
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Journal Article
Study on the Impact of Laser Settings on Parameters of Induced Graphene Layers Constituting the Antenna of UHF RFIDLIG Transponders
2025
Overview
The aim of the research is to investigate the impact of laser operation parameters on the LIG (laser-induced graphene) process. It focuses on evaluating the feasibility of using the induced conductive layers to create antenna circuits that are dedicated to radio-frequency identification (RFID) technology. Given the specific design of textile RFIDtex transponders, applying the LIG technique to fabricate antenna modules on a flexible substrate (e.g., Kapton) opens new possibilities for integrating RFID labels with modern materials and products. The paper analyses the efficiency of energy and data transmission in the proposed innovative UHF RFIDLIG tags. The signal strength, read range, and effectiveness are estimated in the experimental setup, providing key insights into the performance of the devices. Based on the obtained results, it can be concluded that changes in laser cutting parameters, the size of the induced graphene layer, and the method of fixing the Kapton substrate significantly affect the quality of the cutting/engraving components and the conductivity of burned paths. However, these changes do not directly affect the correct operation of the RFIDLIG transponders, owing to the fact that these structures are resistant to external impacts. Nevertheless, an increased range of data readout from the RFIDLIG tags can be achieved by using graphene paths with higher conductivity. The obtained results confirm the validity of the proposed concept and provide a foundation for further research on adapting the LIG method to automated logistics, ultimately leading to the development of more versatile and innovative solutions for identification processes.
Publisher
MDPI AG,MDPI
Subject
