Low-dielectric Constant MaterialsMaterials Research Society, 1996 - Electric insulators and insulation |
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Page 92
employed for conventional SOG processing , 5 ) the ability to " tune " dielectric
constant over a wide range , and 6 ) the ability to migrate the same dielectric
material and integration scheme for multiple semiconductor technology nodes by
...
employed for conventional SOG processing , 5 ) the ability to " tune " dielectric
constant over a wide range , and 6 ) the ability to migrate the same dielectric
material and integration scheme for multiple semiconductor technology nodes by
...
Page 108
The pores are well ordered within a narrow composition range ( 0 . 1 - 0 . 15 ) ,
but the films are thermally stable over a broader range , and the porosity can be
controlled by adjusting the CTAC / TEOS ratio . Figure 4 shows the volume of
silica ...
The pores are well ordered within a narrow composition range ( 0 . 1 - 0 . 15 ) ,
but the films are thermally stable over a broader range , and the porosity can be
controlled by adjusting the CTAC / TEOS ratio . Figure 4 shows the volume of
silica ...
Page 195
In this work we report on the properties of films which have been cured at
different temperatures covering the range from 350°C to 850°C . It is found that
the material remains in its microporous structures at the lower temperature while
it can be ...
In this work we report on the properties of films which have been cured at
different temperatures covering the range from 350°C to 850°C . It is found that
the material remains in its microporous structures at the lower temperature while
it can be ...
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Contents
LowDielectric Constant Materials for IC Intermetal | 3 |
A Study of Anisotropy of Spin Cast and VaporDeposited | 15 |
A LOW ER Material Candidate for ULSI | 21 |
Copyright | |
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Common terms and phrases
absorption addition adhesion annealing applications atoms bonds capacitance changes characteristics characterized chemical compared composition concentration containing cured decrease density dependence deposition determined dielectric constant discussed drying effect electrical electron etch evaporation exhibit Figure films deposited flow fluorine formed frequency FTIR function glass groups heating higher hydrogen imidization improved increasing indicates integrated interconnect interface layer lines loss lower materials measured mechanical metal mode moisture observed obtained oxide Parylene peak PECVD performed PFCB plasma polyimide polymers precursor prepared presented pressure Proc properties PTFE range ratio reaction reduced relative reported resistance sample sccm shown shows silica silicon similar SiO2 SiOF films Solid solution solvent spectra strength stress structure substrate surface Table Teflon temperature thermal stability thickness thin films transition treatment values Volume wafer weight xerogel
Bibliographic information
| Title | Low-dielectric Constant Materials Materials Research Society symposia proceedings |
| Publisher | Materials Research Society, 1996 |
| Original from | the University of Michigan |
| Digitized | 10 Dec 2007 |
| ISBN | 1558993479, 9781558993471 |
| Export Citation | BiBTeX EndNote RefMan |