Micromachines (Feb 2011)

Self-Assembly of Chip-Size Components with Cavity Structures: High-Precision Alignment and Direct Bonding without Thermal Compression for Hetero Integration

  • Mitsumasa Koyanagi,
  • Kang-Wook Lee,
  • Tetsu Tanaka,
  • Ji-Chel Bea,
  • Takayuki Konno,
  • Eiji Iwata,
  • Risato Kobayashi,
  • Mariappan Murugesan,
  • Toshiya Kojima,
  • Takafumi Fukushima

DOI
https://doi.org/10.3390/mi2010049
Journal volume & issue
Vol. 2, no. 1
pp. 49 – 68

Abstract

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New surface mounting and packaging technologies, using self-assembly with chips having cavity structures, were investigated for three-dimensional (3D) and hetero integration of complementary metal-oxide semiconductors (CMOS) and microelectromechanical systems (MEMS). By the surface tension of small droplets of 0.5 wt% hydrogen fluoride (HF) aqueous solution, the cavity chips, with a side length of 3 mm, were precisely aligned to hydrophilic bonding regions on the surface of plateaus formed on Si substrates. The plateaus have micro-channels to readily evaporate and fully remove the liquid from the cavities. The average alignment accuracy of the chips with a 1 mm square cavity was found to be 0.4 mm. The alignment accuracy depends, not only on the area of the bonding regions on the substrates and the length of chip periphery without the widths of channels in the plateaus, but also the area wetted by the liquid on the bonding regions. The precisely aligned chips were then directly bonded to the substrates at room temperature without thermal compression, resulting in a high shear bonding strength of more than 10 MPa.

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