Low-dielectric Constant MaterialsMaterials Research Society, 1998 - Electric insulators and insulation |
From inside the book
Results 1-3 of 30
Page 40
The dielectric constant of polyimide exhibits a broad maximum around 20 °C and
continues to decrease with ... Both MSQ and PSQ , however , exhibit a different
type of temperature dependence , namely a decrease in the dielectric constant ...
The dielectric constant of polyimide exhibits a broad maximum around 20 °C and
continues to decrease with ... Both MSQ and PSQ , however , exhibit a different
type of temperature dependence , namely a decrease in the dielectric constant ...
Page 139
Unlike SiO2 , polymeric thin films exhibit a complex morphology which varies with
the polymer ' s thermal history , deposition temperature , and film thickness .
Since the morphology of the polymer thin film ultimately affects its properties such
...
Unlike SiO2 , polymeric thin films exhibit a complex morphology which varies with
the polymer ' s thermal history , deposition temperature , and film thickness .
Since the morphology of the polymer thin film ultimately affects its properties such
...
Page 144
Since most hightemperature ( ~ 400°C ) stable polymers contain a main - chain
benzene ring , they exhibit dielectric anisotropy . The work here showed PPXN
and VT - 4 exhibit a large negative birefringence causing a high in - plane ...
Since most hightemperature ( ~ 400°C ) stable polymers contain a main - chain
benzene ring , they exhibit dielectric anisotropy . The work here showed PPXN
and VT - 4 exhibit a large negative birefringence causing a high in - plane ...
What people are saying - Write a review
We haven't found any reviews in the usual places.
Contents
Overview of Process Integration Issues for LowK Dielectrics | 3 |
Fundamental Aspects of Polymer Metallization | 15 |
LiquidPhase Deposition of LowK Organic | 27 |
Copyright | |
42 other sections not shown
Other editions - View all
Common terms and phrases
adhesion annealing applications atoms bonds calculated capacitance carbon cause characteristics chemical compared concentration copper crack curing decrease density dependence deposition depth determined developed devices dielectric constant diffusion e-beam effect electrical electron energy etch Figure fluorine frequency function glass heating higher hydrogen increase indicate integration interconnect interface layer less lines load low-k lower materials measured mechanical metal moisture observed obtained organic oxide oxygen peak performance plasma polished polyimide polymer polymerization porosity porous precursors present Proc properties pulse range ratio reaction reduced relative removal Research resistance samples shown in Figure shows silica silicon SiO2 spectra stability strength stress structure substrate surface Symp Table technique temperature thermal thickness thin films treatment values Volume wafer wiring xerogel
Bibliographic information
| Title | Low-dielectric Constant Materials Materials Research Society symposia proceedings |
| Publisher | Materials Research Society, 1998 |
| Original from | the University of Michigan |
| Digitized | 10 Dec 2007 |
| ISBN | 1558994173, 9781558994171 |
| Export Citation | BiBTeX EndNote RefMan |