• Title of article

    Precise control over oxygen impurities in nano-crystalline silicon thin film processed with a low hydrogen dilution gas system at near room temperature

  • Author/Authors

    Jang، نويسنده , , Jin Nyoung and Lee، نويسنده , , Dong Hyeok and Hong، نويسنده , , MunPyo Hong، نويسنده ,

  • Issue Information
    ماهنامه با شماره پیاپی سال 2014
  • Pages
    4
  • From page
    901
  • To page
    904
  • Abstract
    An atmosphere highly diluted with hydrogen is essential to increase the crystal fraction during formation of hydrogenated nano-crystalline (nc) or micro-crystalline (μc) silicon thin films via chemical vapor deposition (CVD). This hydrogen-rich process, however, hinders the ability for the material to find adequate use in micro-electronic devices due to contamination that results in oxygen-related problems such as donor-like doping, defect creation, or passivation. The use of neutral beam assisted chemical vapor deposition (NBaCVD), with a low hydrogen ratio (R = H2/SiH4) of 4, successfully deposits a highly-crystallized nc-silicon (HC nc-Si) thin film (TF) at near room temperature (<80 °C) and effectively reduces oxygen contamination by as much as 100 times when compared to conventional plasma enhanced CVD. During the formation of HC nc-Si TF via NBaCVD, energetic hydrogen atoms directly react with oxygen atoms near the surface of the nc-Si TF and remove the oxygen impurities. This is a completely different mechanism from the hydrogen-enhanced oxygen diffusion model. This technology meets the recent requirements of a high deposition rate and low temperature necessary for flexible electronics.
  • Keywords
    Oxygen control , Neutral beam , CVD , Low hydrogen ratio , Nano crystal silicon
  • Journal title
    Current Applied Physics
  • Serial Year
    2014
  • Journal title
    Current Applied Physics
  • Record number

    1792131