Sensors (Sep 2017)

Interface Characteristics of Sapphire Direct Bonding for High-Temperature Applications

  • Wangwang Li,
  • Ting Liang,
  • Yulei Chen,
  • Pinggang Jia,
  • Jijun Xiong,
  • Yingping Hong,
  • Cheng Lei,
  • Zong Yao,
  • Lei Qi,
  • Wenyi Liu

DOI
https://doi.org/10.3390/s17092080
Journal volume & issue
Vol. 17, no. 9
p. 2080

Abstract

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In this letter, we present a sapphire direct bonding method using plasma surface activation, hydrophilic pre-bonding, and high temperature annealing. Through the combination of sapphire inductively coupled plasma etching and the direct bonding process, a vacuum-sealed cavity employable for high temperature applications is achieved. Cross-sectional scanning electron microscopy (SEM) research of the bonding interface indicates that the two sapphire pieces are well bonded and the cavity structure stays intact. Moreover, the tensile testing shows that the bonding strength of the bonding interface is in excess of 7.2 MPa. The advantage of sapphire direct bonding is that it is free from the various problems caused by the mismatch in the coefficients of thermal expansion between different materials. Therefore, the bonded vacuum-sealed cavity can be potentially further developed into an all-sapphire pressure sensor for high temperature applications.

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