© 2015 AIP Publishing LLC. Cu/low-k integration by conventional damascene approach is becoming increasingly difficult as critical dimensions scale down. An alternative integration scheme is studied based on the replacement of a sacrificial template by ultralow-k dielectric. A metal structure is first formed by patterning a template material. After template removal, a k = 2.31 spin-on type of porous low-k dielectric is deposited onto the patterned metal lines. The chemical and electrical properties of spin-on dielectrics are studied on blanket wafers, indicating that during hard bake, most porogen is removed within few minutes, but 120 min are required to achieve the lowest k-value. The effective dielectric constant of the gap-fill low-k is ...
© 2019 Elsevier B.V. This study describes the damage caused by physical vapor deposition of TaN/Ta b...
Advanced interconnect technologies require the continuous development of reliable low-k dielectric m...
Low-dielectric (k) films are one of the performance drivers for continued scaling of integrated circ...
© 2015 IEEE. Replacement of sacrificial template by ultralow-k dielectric was studied as an alternat...
Integration of dielectrics with increased porosity is required to reduce the capacitance of intercon...
The 100 nm device generation calls for low-k dielectrics below 2.5, which should soon be lowered to ...
Nowadays the implementation of copper and low k material into IC fabrication is a serious issue for ...
Dielectric stacks containing porous low-k materials were investigated regarding their ability to pas...
This paper reports about examinations on mechanical integrity improvement which were done to enable ...
Downlooften silicon nitride or silicon oxide, has a higher dielectric constant (high-k, 4.0 < k &...
An alternative indirect integration regime of porous low-k materials was investigated. Based on a si...
The drive for greater integrated circuit performance has led to the need for faster interconnect sys...
The solution to the problem of increased resistance-capacitance (RC) delay in the present day ULSI i...
Much effort has been undertaken to develop high performance ultra-low k ( ≤ 2.2) (ULK) dielectrics t...
On-chip integration of passive devices like inductors, capacitors, resistors, transmission lines etc...
© 2019 Elsevier B.V. This study describes the damage caused by physical vapor deposition of TaN/Ta b...
Advanced interconnect technologies require the continuous development of reliable low-k dielectric m...
Low-dielectric (k) films are one of the performance drivers for continued scaling of integrated circ...
© 2015 IEEE. Replacement of sacrificial template by ultralow-k dielectric was studied as an alternat...
Integration of dielectrics with increased porosity is required to reduce the capacitance of intercon...
The 100 nm device generation calls for low-k dielectrics below 2.5, which should soon be lowered to ...
Nowadays the implementation of copper and low k material into IC fabrication is a serious issue for ...
Dielectric stacks containing porous low-k materials were investigated regarding their ability to pas...
This paper reports about examinations on mechanical integrity improvement which were done to enable ...
Downlooften silicon nitride or silicon oxide, has a higher dielectric constant (high-k, 4.0 < k &...
An alternative indirect integration regime of porous low-k materials was investigated. Based on a si...
The drive for greater integrated circuit performance has led to the need for faster interconnect sys...
The solution to the problem of increased resistance-capacitance (RC) delay in the present day ULSI i...
Much effort has been undertaken to develop high performance ultra-low k ( ≤ 2.2) (ULK) dielectrics t...
On-chip integration of passive devices like inductors, capacitors, resistors, transmission lines etc...
© 2019 Elsevier B.V. This study describes the damage caused by physical vapor deposition of TaN/Ta b...
Advanced interconnect technologies require the continuous development of reliable low-k dielectric m...
Low-dielectric (k) films are one of the performance drivers for continued scaling of integrated circ...