An analytical model is proposed which relates the bonding temperature, pressure and duration with the integrity of metal–metal thermocompression bonds. Unlike previous models, this approach takes into account the pressure-dependent time evolution of the thermocompression bond formation. The model allows calculation of the true contact area of rough surfaces, based on a creep-dominated plastic deformation. Verification of the model was provided through experiments on Cu–Cu thermocompression bonds of electroplated Cu on diced silicon wafers with chemically/mechanically polished surfaces. The samples were bonded at a range of temperatures, pressures and times. Shear strength measurements were used to characterize the effects of the bonding par...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Materials Science and Engineering, ...
Thermo-compression bonding is an interconnection technology for micro-systems which is especially in...
Thermocompression bonding joins substrates via a bonding layer. In this paper, silicon substrates we...
An analytical model is proposed which relates the bonding temperature, pressure and duration with th...
The effects of the surface roughness and applied loads on the specific electrical contact resistance...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Materials Science and Engineering, ...
Advancement of the current Two-Dimensional integrated circuits (2D-ICs) is limited by increasing int...
Diffusion of atoms across the boundary between two bonding layers is the key for achieving excellent...
A surface creep model is presented for analyzing Cu-to-Cu direct bonding under thermal compression. ...
In the current two-dimensional (2D) integrated circuits, the chip size is increasing despite the red...
One of the primary and critical requirements for high quality wafer level thermocompression Copper-C...
Three dimensional (3-D) integrated circuits can be fabricated by bonding previously processed device...
The Silicon-Interconnect Fabric (Si-IF) is a platform for heterogeneous integration that seeks to ad...
Copper thermocompression is a promising wafer-level packaging technique, as it allows the bonding of...
Bonded copper interconnects were created using thermo-compression bonding and the dicing yield was u...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Materials Science and Engineering, ...
Thermo-compression bonding is an interconnection technology for micro-systems which is especially in...
Thermocompression bonding joins substrates via a bonding layer. In this paper, silicon substrates we...
An analytical model is proposed which relates the bonding temperature, pressure and duration with th...
The effects of the surface roughness and applied loads on the specific electrical contact resistance...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Materials Science and Engineering, ...
Advancement of the current Two-Dimensional integrated circuits (2D-ICs) is limited by increasing int...
Diffusion of atoms across the boundary between two bonding layers is the key for achieving excellent...
A surface creep model is presented for analyzing Cu-to-Cu direct bonding under thermal compression. ...
In the current two-dimensional (2D) integrated circuits, the chip size is increasing despite the red...
One of the primary and critical requirements for high quality wafer level thermocompression Copper-C...
Three dimensional (3-D) integrated circuits can be fabricated by bonding previously processed device...
The Silicon-Interconnect Fabric (Si-IF) is a platform for heterogeneous integration that seeks to ad...
Copper thermocompression is a promising wafer-level packaging technique, as it allows the bonding of...
Bonded copper interconnects were created using thermo-compression bonding and the dicing yield was u...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Materials Science and Engineering, ...
Thermo-compression bonding is an interconnection technology for micro-systems which is especially in...
Thermocompression bonding joins substrates via a bonding layer. In this paper, silicon substrates we...