• DocumentCode
    1169580
  • Title

    Low-Temperature Sintered Nanoscale Silver as a Novel Semiconductor Device-Metallized Substrate Interconnect Material

  • Author

    Bai, John G. ; Zhang, Zhiye Zach ; Calata, Jesus N. ; Lu, Guo-Quan

  • Author_Institution
    Dept. of Mater. Sci. & Eng., State Univ., Blacksburg, VA
  • Volume
    29
  • Issue
    3
  • fYear
    2006
  • Firstpage
    589
  • Lastpage
    593
  • Abstract
    A nanoscale silver paste containing 30-nm silver particles that can be sintered at 280degC was made for interconnecting semiconductor devices. Sintering of the paste produced a microstructure containing micrometer-size porosity and a relative density of around 80%. Electrical and thermal conductivities of around 2.6times105 (Omegamiddotcm)-1 and 2.4W/K-cm, respectively, were obtained, which are much higher than those of the solder alloys that are currently used for die attachment and/or flip-chip interconnection of power semiconductor devices. The sintered porous silver had an apparent elastic modulus of about 9GPa, which is substantially lower than that of bulk silver, as well as most solder materials. The lower elastic modulus of the porous silver may be beneficial in achieving a more reliable joint between the device and substrate because of increased compliance that can better accommodate stress arising from thermal expansion mismatch
  • Keywords
    elastic moduli; interconnections; nanoparticles; semiconductor device metallisation; silver; sintering; solders; 280 C; 30 nm; die attachment; elastic modulus; electrical conductivity; flip-chip interconnection; interconnect material; low-temperature sintering; metallized substrate; nanoscale silver paste; porous silver; power semiconductor devices; sintered nanoscale silver; solder materials; thermal conductivity; thermal expansion mismatch; Conducting materials; Microstructure; Nanoscale devices; Nanostructured materials; Semiconductor devices; Semiconductor materials; Silver; Substrates; Thermal conductivity; Thermal stresses; Elastic modulus; nanoscale silver paste; sintered;
  • fLanguage
    English
  • Journal_Title
    Components and Packaging Technologies, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    1521-3331
  • Type

    jour

  • DOI
    10.1109/TCAPT.2005.853167
  • Filename
    1684182