This work explores the practical functionality of ultra-high frequency (UHF) radio frequency identification (RFID) tags screen printed onto various low-cost, flexible substrates. The need for integrated and automated low-cost point-of-care diagnostic solutions has driven the development of automated sensing and connectivity for implementation with these devices. This work explores wireless communication for paper-based point-of-care diagnostic solutions through screen printing of UHF RFID tags onto various low-cost and flexible substrates. Manual screen printing and assembly of RFID sensor integrated circuit packages and UHF RFID dipole antennas onto various substrates was performed and the practical functionality of these tags was assessed. Print quality including parameters such as resistance, roughness and print thickness are reported to illustrate the effect of the substrate on the printed result. Practical read range measurements are presented for the various tags in passive and active modes, as well as with a load connected, for different tag orientations. Results showed that the tags are adequate for clinical requirements with read ranges of at least 75 mm achieved in passive mode across the different substrates. Our results indicate that a variety of low-cost substrates can be utilized as different packaging and label options for paper-based diagnostic tests. This work presents the feasibility of implementing such devices towards low-cost, integrated point-of-care diagnostics, using straightforward fabrication techniques and realistic testing environments to illustrate the possibilities.
Reference:
Smith, S. et al. 2018. Functional screen printed radio frequency identification tags on flexible substrates, facilitating low-cost and integrated point-of-care diagnostics. Flexible and Printed Electronics, vol. 3(2): 1-19
Smith, S., Oberholzer, A. E., Land, K. J., Korvink, J., & Mager, D. (2018). Functional screen printed radio frequency identification tags on flexible substrates, facilitating low-cost and integrated point-of-care diagnostics. http://hdl.handle.net/10204/10196
Smith, Suzanne, Adelaide E Oberholzer, Kevin J Land, JG Korvink, and D Mager "Functional screen printed radio frequency identification tags on flexible substrates, facilitating low-cost and integrated point-of-care diagnostics." (2018) http://hdl.handle.net/10204/10196
Smith S, Oberholzer AE, Land KJ, Korvink J, Mager D. Functional screen printed radio frequency identification tags on flexible substrates, facilitating low-cost and integrated point-of-care diagnostics. 2018; http://hdl.handle.net/10204/10196.