Wafer-Level Thermocompression Bonds

Tsau, Christine H., Schmidt, Martin A., Spearing, S. Mark

01 1900

Thermocompression bonding of gold is a promising technique for achieving low temperature, wafer-level bonding without the application of an electric field or complicated pre-bond cleaning procedure. The presence of a ductile layer influences the fracture behavior of the bonds. The fabrication process was described. In addition, the effect of plasticity was explored by varying the gold bonding thickness between 0.23 to 1.4 µm. Wafers were bonded at 300°C and two different pressures: 1.25 and 7 MPa. The bond toughness of the specimens were characterized using a four-point bend delamination technique. Cohesive failure was found to be the dominant fracture mode in the thicker films. Bonds made with thin gold films failed adhesively and at lower strain energy release rates. / Singapore-MIT Alliance (SMA)

wafer bonding

thermocompression bonding

plasticity

Review of Direct Metal Bonding for Microelectronic Interconnections

Zhang, G.G., Wong, Chee Cheong

01 1900

Microelectronic interconnections require advanced joining techniques. Direct metal bonding methods, which include thercomsonic and thermocompression bonding, offer remarkable advantages over soldering and adhesives joining. These processes are reviewed in this paper. The progress made in this area is outlined. Some work concerned with the bonding modeling is also presented. This model is based on the joint interface mechanics resulting from compression. Both bump and substrate deformation are taken into account. The improved understanding of the relationship between the deformation and bonding formation may provide more accurate joint evaluation criterion. / Singapore-MIT Alliance (SMA)

direct metal bonding

microelectronic interconnections

bump deformation

substrate deformation

thermosonic bonding

compression modeling

thermocompression bonding

Design, Simulation and Physical Characterization of 3D Photonic Crystal Woodpile Structures for High Efficacy Incandescent Thermal Emission

SRIDHAR, SUPRIYA LALAPET

22 September 2008

No description available.

Electrical Engineering

3D Photonic crystals

Tungsten

Thermocompression bonding

Incandescent thermal emission

intereference patterning