Micrometer-Scale Magnetic-Resonance-Coupled Radio-Frequency Identification and Transceivers for Wireless Sensors in Cells
Xiaolin Hu, Kamal Aggarwal, Mimi X. Yang, Kokab B. Parizi, Xiaoqing Xu, Demir Akin, Ada S. Y. Poon, and H.-S. Philip Wong
Phys. Rev. Applied 8, 014031 – Published 26 July 2017
We report the design, analysis, and characterization of a three-inductor radio-frequency identification (RFID) and transceiver system for potential applications in individual cell tracking and monitoring. The RFID diameter is 22μm and can be naturally internalized by living cells. Using magnetic resonance coupling , the system shows resonance shifts when the RFID is present and also when the RFID loading capacitance changes. It operates at 60 GHz with a high signal magnitude up to − 50 dB and a sensitivity of 0.2. This miniaturized RFID with a high signal magnitude is a promising step toward continuous, real-time monitoring of activities at cellular levels.
Received 6 March 2017
© 2017 American Physical Society