摘要:
Bond pads for semiconductor devices and method for fabricating the same are provided. A bond pad has a first passivation layer having a plurality of openings. A conductive layer which overlies the openings and portions of the first passivation layer, having a first portion overlying the first passivation layer and a second portion overlying the openings. A second passivation layer overlies the first passivation layer and covers edges of the conductive layer.
摘要:
Bond pads for semiconductor devices and method for fabricating the same are provided. A bond pad has a first passivation layer having a plurality of openings. A conductive layer which overlies the openings and portions of the first passivation layer, having a first portion overlying the first passivation layer and a second portion overlying the openings. A second passivation layer overlies the first passivation layer and covers edges of the conductive layer.
摘要:
An integrated circuit device having at least a bond pad for semiconductor devices and method for fabricating the same are provided. A bond pad has a first passivation layer having a plurality of openings. A conductive layer which overlies the openings and portions of the first passivation layer, having a first portion overlying the first passivation layer and a second portion overlying the openings. A second passivation layer overlies the first passivation layer and covers edges of the conductive layer.
摘要:
An integrated circuit device having at least a bond pad for semiconductor devices and method for fabricating the same are provided. A bond pad has a first passivation layer having a plurality of openings. A conductive layer which overlies the openings and portions of the first passivation layer, having a first portion overlying the first passivation layer and a second portion overlying the openings. A second passivation layer overlies the first passivation layer and covers edges of the conductive layer.
摘要:
A method for forming an integrated circuit includes forming a low-k dielectric layer over a semiconductor substrate, etching the low-k dielectric layer to form an opening, forming a dielectric barrier layer covering at least sidewalls of the opening, performing a treatment to improve a wetting ability of the dielectric barrier layer, and filling the opening with a conductive material, wherein the conductive material is in contact with the dielectric barrier layer.
摘要:
A method for forming an integrated circuit includes forming a low-k dielectric layer over a semiconductor substrate, etching the low-k dielectric layer to form an opening, forming a dielectric barrier layer covering at least sidewalls of the opening, performing a treatment to improve a wetting ability of the dielectric barrier layer, and filling the opening with a conductive material, wherein the conductive material is in contact with the dielectric barrier layer.
摘要:
A bilayer porous low dielectric constant (low-k) interconnect structure and methods of fabricating the same are presented. A preferred embodiment having an effective dielectric constant of about 2.2 comprises a bottom deposited dielectric layer and a top deposited dielectric layer in direct contact with the former. The bottom layer and the top layer have same atomic compositions, but a higher dielectric constant value k. The bottom dielectric layer serves as an etch stop layer for the top dielectric layer, and the top dielectric layer can act as CMP stop layer. One embodiment of making the structure includes forming a bottom dielectric layer having a first porogen content and a top dielectric layer having a higher porogen content. A curing process leaves lower pore density in the bottom dielectric layer than that left in the top dielectric layer, which leads to higher dielectric value k in the bottom dielectric layer.
摘要:
A bilayer porous low dielectric constant (low-k) interconnect structure and methods of fabricating the same are presented. A preferred embodiment having an effective dielectric constant of about 2.2 comprises a bottom deposited dielectric layer and a top deposited dielectric layer in direct contact with the former. The bottom layer and the top layer have same atomic compositions, but a higher dielectric constant value k. The bottom dielectric layer serves as an etch stop layer for the top dielectric layer, and the top dielectric layer can act as CMP stop layer. One embodiment of making the structure includes forming a bottom dielectric layer having a first porogen content and a top dielectric layer having a higher porogen content. A curing process leaves lower pore density in the bottom dielectric layer than that left in the top dielectric layer, which leads to higher dielectric value k in the bottom dielectric layer.
摘要:
A semiconductor structure having improved adhesion between a low-k dielectric layer and the underlying layer and a method for forming the same are provided. The semiconductor substrate includes a dielectric layer over a semiconductor substrate, an adhesion layer on the dielectric layer wherein the adhesion layer comprises a transition sub-layer over an initial sub-layer, and wherein the transition sub-layer has a composition that gradually changes from a lower portion to an upper portion. A low-k dielectric layer is formed on the adhesion layer. Damascene openings are formed in the low-k dielectric layer. A top portion of the transition sub-layer has a composition substantially similar to a composition of the low-k dielectric layer. A bottom portion of the transition sub-layer has a composition substantially similar to a composition of the initial sub-layer.
摘要:
A semiconductor structure having improved adhesion between a low-k dielectric layer and the underlying layer and a method for forming the same are provided. The semiconductor substrate includes a dielectric layer over a semiconductor substrate, an adhesion layer on the dielectric layer wherein the adhesion layer comprises a transition sub-layer over an initial sub-layer, and wherein the transition sub-layer has a composition that gradually changes from a lower portion to an upper portion. A low-k dielectric layer is formed on the adhesion layer. Damascene openings are formed in the low-k dielectric layer. A top portion of the transition sub-layer has a composition substantially similar to a composition of the low-k dielectric layer. A bottom portion of the transition sub-layer has a composition substantially similar to a composition of the initial sub-layer.