Articles
  • Structural and electrical properties of Ni0.79Mn2.21-xCuxO4 thick-film bolometer with addition of copper (Cu) for application in infrared sensors
  • Dong-Jin Leea, Sung-Gap Lee*, Kyeong-Min Kima and Myung-Soo Hanb
  • a Dept. of Materials Engineering and Convergence Technology, Engineering Research Institute, Gyeongsang National University, Jinju 52828, Korea b Micro-Optics Team, Korea Photonics Technology Institute, Gwangju 61007, Korea
Abstract
In this study, Ni0.79Mn2.21-xCuxO4 (0 ≤ x ≤ 0.15) thick films were coated on alumina substrate using a screening printing technique. All specimens were sintered in air at 1150 oC for 6 hr and annealed at 830 oC. We investigated structural and electrical properties with variations of Cu amount. The results from using a screening printing technique have been shown that all specimens were in a cubic spinel phase formation without any second phase. Our study also found that the electrical resistivity at room temperature and the TCR were decreased as the Cu amount was increased. The Ni0.79Mn2.11Cu0.10O4 thick film showed higher electrical properties than any other Ni0.79Mn2.21-xCuxO4 thick film. The resistance at room temperature, TCR, responsivity and detectivity of Ni0.79Mn2.11Cu0.10O4 thick films were 353Ω-cm and 3.61%/οC, 0.0212 V/W and 1.25 × 104 cmHz1/2/ W, respectively.

Keywords: Cubic spinel, Screening printing, TCR, Responsivity, Detectivity.

This Article

  • 2016; 17(8): 890-893

    Published on Aug 31, 2016