摘要:
A dual damascene process for low-k or ultra low-k dielectric such as organo-silicate glass (OSG). After the via (112) etch, a trench (121) is etched in the OSG layer (108) using a less-polymerizing fluorocarbon added to an etch chemistry comprising a fluorocarbon and low N2/Ar ratio. The low N2/Ar ratio controls ridge formation during the trench etch. The combination of a less-polymerizing fluorocarbon with a higher-polymerizing fluorocarbon achieves a high etch rate and defect-free conditions.
摘要:
A dual damascene process flow for forming interconnect lines and vias in which at least part of the via (116) is etched prior to the trench etch. A low-k material such as a thermoset organic polymer is used for the ILD (106) and IMD (110). After the at least partial via etch, a BARC (120) is deposited over the structure including in the via (116). Then, the trench (126) is patterned and etched. Although at least some of the BARC (120) material is removed during the trench etch, the bottom of the via (116) is protected.
摘要:
After via etch, a low-k dielectric layer (104) is treated with an in-situ O2 plasma. Resist poisoning is caused by a N source that causes an interaction between low-k films (104), such as OSG, and DUV resist (130, 132). The in-situ plasma treatment immediately removes the source of poisoning to reduce or eliminate poisoning at trench patterning.
摘要:
A low-k dielectric layer (104) is treated with a dry-wet (D-W) or dry-wet-dry (D-W-D) process to improve patterning Resist poisoning occurs due to an interaction between low-k films (104), such as OSG, and DUV resist (130). The D-W or D-W-D treatment is performed to either pretreat a low-k dielectric (104) before forming the pattern (130) or during a rework of the pattern (130).
摘要:
A first dielectric layer (30) and a second dielectric layer (40) are formed over an etch stop layer (20). A hardmask layer (50) is formed over the second dielectric layer and a via (62) is formed in the first dielectric layer (30) and the second dielectric layer (40). A trench (85) is formed mostly in the second dielectric layer (40) by fully or partially removing BARC from the via (62) are partially etching the trench (85) and prior to completion of the trench etch process.
摘要:
A low-k dielectric layer (104) is treated with a dry H2 plasma pretreatment to improve patterning. Resist poisoning occurs due to an interaction between low-k films (104), such as OSG, and DUV resist (130). The H2 plasma pre-treatment is performed to either pretreat a low-k dielectric (104) before forming the pattern (130) or during a rework of the pattern (130).