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J. Electrochem. Sci. Technol > Volume 1(1); 2010 > Article
Journal of Electrochemical Science and Technology 2010;1(1):39-44.
DOI: https://doi.org/10.5229/JECST.2010.1.1.039   
Preparation and Electrochemical Performance of 1.5 V and 3.0 V-Class Primary Film Batteries for Radio Frequency Identification (RFID)
Young-Gi Lee, Min-Gyu Choi, Kun-Young Kang, Kwang-Man Kim
Power Control Device Research Team, NT Convergence Components Research Department, Electronics and Telecommunications Research Institute (ETRI);Power Control Device Research Team, NT Convergence Components Research Department, Electronics and Telecommunications Research Institute (ETRI);Power Control Device Research Team, NT Convergence Components Research Department, Electronics and Telecommunications Research Institute (ETRI);Power Control Device Research Team, NT Convergence Components Research Department, Electronics and Telecommunications Research Institute (ETRI);
Abstract
1.5 V and 3.0 V-class film-type primary batteries were designed for radio frequency identification (RFID) tag. Efficient fabrication processes such as screen-printings of conducting layer ($25{mu}m$), active material layer ($40{mu}m$ for anode and $80{mu}m$ for cathode), and electrolyte/separator/electrolyte layer ($100{mu}m$), were adopted to give better performances of the 1.5 V-class film-type Leclanch$acute{e}$ primary battery for battery-assisted passive (BAP) RFID tag. Lithium (Li) metal is used as an anode material in a 3.0 V-class film-type $MnO_2||$Li primary battery to increase the operating voltage and discharge capacity for application to active sensor tags of a radio frequency identification system. The fabricated 3.0 V-class film-type Li primary battery passes several safety tests and achieves a discharge capacity of more than 9 mAh $cm^{-2}$.
Key Words: 1.5 V batteries for battery-assisted passive RFID tag, 3.0 V-class batteries for active sensor RFID tag, Primary film batteries, Screen-printing process, Discharge capacity


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