Photo from academic.microsoft.com
A diamond (111) substrate cleaned with an NH3/H2O2 mixture could form low-temperature direct bonding under atmospheric conditions. When the diamond surface was bonded with a plasma activated SiO2 surface at… Click to show full abstract
A diamond (111) substrate cleaned with an NH3/H2O2 mixture could form low-temperature direct bonding under atmospheric conditions. When the diamond surface was bonded with a plasma activated SiO2 surface at 200 °C, the bonding strength was sufficiently high so that cleavage within diamond occurred in a shear test. Moreover, the diamond and Si substrates treated with the NH3/H2O2 mixture could form atomic bonds with a 2.5-nm-thick oxide intermediate layer. This bonding method can be applied to electronic devices using diamond because heterogeneous integration can be achieved using a popular wafer cleaning process followed by low-temperature annealing.
Journal Title: Applied Physics Letters
Year Published: 2020
Link to full text (if available)
Share on Social Media: Sign Up to like & get
recommendations!