Materials Research Society Symposia Proceedings, Volume 511 |
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Page 114
Figure 9 - Gap Fill of Aluminum Traces Using 10:90 Porous Silica Thin Film
Figure 10 - Gap Fill of Aluminum Traces Using 20:80 Porous Silica Thin Film
Figure 1 1 - Gap Fill of Aluminum Traces Using 30:70 Porous Silica Thin Film
Electrical ...
Figure 9 - Gap Fill of Aluminum Traces Using 10:90 Porous Silica Thin Film
Figure 10 - Gap Fill of Aluminum Traces Using 20:80 Porous Silica Thin Film
Figure 1 1 - Gap Fill of Aluminum Traces Using 30:70 Porous Silica Thin Film
Electrical ...
Page 136
CVD aluminum was deposited in a modified LAM QUAD cluster tool (hot wall).
For Al CVD the source precursor (dimethylelthylamine alane (DMEAA) at 20
scem) and H2 carrier (at 500 scem) were introduced into the cluster tool chamber
at a ...
CVD aluminum was deposited in a modified LAM QUAD cluster tool (hot wall).
For Al CVD the source precursor (dimethylelthylamine alane (DMEAA) at 20
scem) and H2 carrier (at 500 scem) were introduced into the cluster tool chamber
at a ...
Page 191
NRA and X-ray photoelectron spectroscopy (XPS) depth profiles showed that
fluorine diffuses rapidly through aluminum and piles up at the free surface. The
effect of various plasma treatments was investigated to passivate the surface of ...
NRA and X-ray photoelectron spectroscopy (XPS) depth profiles showed that
fluorine diffuses rapidly through aluminum and piles up at the free surface. The
effect of various plasma treatments was investigated to passivate the surface of ...
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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
Low-Dielectric Constant Materials II: H. Treichel,A. C. Jones,A. Lagendijk,K. Uram Snippet view - 1997 |
Common terms and phrases
1998 Materials Research a-C:F films a-C:F ILD adhesion aluminum annealing atoms birefringence bonds capacitance capacitors carbon chemical chemical vapor deposition coefficient concentration copper curing temperature damascene decrease density dielectric constant diffusion electrical electromigration electron ellipsometry energy etch rate F1AC film thickness fluorine fluorocarbon FTIR function hard mask hydrogen in-plane increase integration interconnect interface joule heating layer low dielectric constant low k materials low-k lower Materials Research Society measured mechanical metal lines Microelectronics modulus moisture molecular nanoporous oxide oxygen PECVD Phys planarization plasma etching plasma treatment polyimide polymer polymer films polymerization porosity porous silica xerogel precursors Proc properties pulse ratio reaction refractive index resistance samples Semiconductor shown in Figure shows Si-F silica silicon silicon oxide silsesquioxane spectra spin-coating spin-on stress structure substrate surface Symp technique thermal stability thin films ULSI wafer wiring xerogel
Bibliographic information
| Title | Materials Research Society Symposia Proceedings, Volume 511 Materials Research Society Symposia Proceedings, Materials Research Society Symposia Proceedings |
| Author | Chien Chiang |
| Contributor | Materials Research Society |
| Publisher | North Holland, 1998 |
| Original from | the University of Michigan |
| Digitized | 10 Dec 2007 |
| Export Citation | BiBTeX EndNote RefMan |