Novel low-k polycyanurates for integrated circuit (IC) metallization
Microelectronic Engineering(2005)
Abstract
Polycyanurate-based intermetal dielectrics with lowered relative permittivity in comparison to silicon oxide as well as good electrical, thermal and mechanical properties permitting an easy low-step processing were developed. A thin reference film with a k-value of 2.91 (at 0.1 MHz) consisting of a three-dimensional polycyanurate network was obtained by curing the fluorine containing difunctional cyanate ester monomer 2,2'-bis(4-cyanatophenyl)-1,1,1,3,3,3-hexafluoroisopropylidene (F10). By co-curing of F10 with a bulky trifunctional cyanate ester monomer the dielectric constant was increased. However, co-curing with monofunctional cyanate ester monomers reduces the dielectric constant and the lowest k-value of 2.54 (at 0.1 MHz) was found for a cyanurate copolymer with a high content of m-(trifluoromethyl)phenyl structural units. All films investigated had a leakage current =
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Key words
relative permittivity,high content,cyanurate copolymer,mechanical property,easy low-step processing,bulky trifunctional cyanate ester,integrated circuit,polycyanurates,lowest k-value,phenyl structural unit,difunctional cyanate ester monomer,ulk,low- k,polycyanurate-based intermetal dielectric,novel low-k polycyanurates,copper damascene technology,dielectric constant,three dimensional,copper,leakage current
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