The effects of the surface roughness and applied loads on the specific electrical contact resistance of three-dimensional Cu–Cu bonded interconnects have been quantitatively investigated. Wafer-level thermocompression bonding was carried out on bonded Cu layers with either different surface roughness at a certain load or with similar surface roughness at different applied loads. Experimental results show that as the surface roughness of the Cu bonding layer increases or as the bonding load decreases, the specific contact resistance of the bonded interconnects increases. A model is presented which quantifies the relationship between the specific contact resistance and the true contact area (which is a function of the surface roughness and ap...
One of the primary and critical requirements for high quality wafer level thermocompression Copper-C...
A theory is presented which describes the initial direct wafer bonding process. The effect of surfac...
A surface creep model is presented for analyzing Cu-to-Cu direct bonding under thermal compression. ...
An analytical model is proposed which relates the bonding temperature, pressure and duration with th...
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, ...
Advancement of the current Two-Dimensional integrated circuits (2D-ICs) is limited by increasing int...
Three dimensional (3-D) integrated circuits can be fabricated by bonding previously processed device...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Materials Science and Engineering, 20...
Contact resistance is the most important and universal characteristic of all types of electrical and...
Electrically conductive adhesives electrically connect and mechanically bond circuits to a variety o...
While the ultimate goal of Cu interconnection in 3D-IC is to have Cu as both the glue layer and inte...
In 3D IC integration, a critical demand of interfacial joints in high-end devices is ultra-fine pitc...
Prediction of electrical and thermal contact resistance for pressed, nominally flat contacts is comp...
Interconnects are necessary for the electrical connection of an integrated circuits (IC). Therefore,...
One of the primary and critical requirements for high quality wafer level thermocompression Copper-C...
A theory is presented which describes the initial direct wafer bonding process. The effect of surfac...
A surface creep model is presented for analyzing Cu-to-Cu direct bonding under thermal compression. ...
An analytical model is proposed which relates the bonding temperature, pressure and duration with th...
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, ...
Advancement of the current Two-Dimensional integrated circuits (2D-ICs) is limited by increasing int...
Three dimensional (3-D) integrated circuits can be fabricated by bonding previously processed device...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Materials Science and Engineering, 20...
Contact resistance is the most important and universal characteristic of all types of electrical and...
Electrically conductive adhesives electrically connect and mechanically bond circuits to a variety o...
While the ultimate goal of Cu interconnection in 3D-IC is to have Cu as both the glue layer and inte...
In 3D IC integration, a critical demand of interfacial joints in high-end devices is ultra-fine pitc...
Prediction of electrical and thermal contact resistance for pressed, nominally flat contacts is comp...
Interconnects are necessary for the electrical connection of an integrated circuits (IC). Therefore,...
One of the primary and critical requirements for high quality wafer level thermocompression Copper-C...
A theory is presented which describes the initial direct wafer bonding process. The effect of surfac...
A surface creep model is presented for analyzing Cu-to-Cu direct bonding under thermal compression. ...