27.2 Aluminum is the primary conductor material for fabrica- tion of microelectronic devices. Consider the composite thin film shown in the figure below. A thin film of solid aluminum is sputter-coated onto a wafer surface. Then, a 0.50-μm thin film of silicon is added on top of the aluminum film by chemical vapor deposition of silane. If a high temperature is maintained during subsequent processing steps, then the aluminum can diffuse into the Si thin film and change the characteristics of the micro- electronic device. Estimate the concentration of Al halfway into the Si thin film if the temperature is maintained at 1250 K for 10 h. Consider whether or not the process represents diffusion within a semi-infinite medium or in a finite-dimensional medium. At 1250 K, the maximum solubility of Al in Si is about 1 wt%. Solid-phase diffusivity data for common dopants in silicon are provided in Figure 24.12 and Table 24.7. Silicon thin film (0.5 μm) NA Aluminum thin film (species A) Wafer surface
27.2 Aluminum is the primary conductor material for fabrica- tion of microelectronic devices. Consider the composite thin film shown in the figure below. A thin film of solid aluminum is sputter-coated onto a wafer surface. Then, a 0.50-μm thin film of silicon is added on top of the aluminum film by chemical vapor deposition of silane. If a high temperature is maintained during subsequent processing steps, then the aluminum can diffuse into the Si thin film and change the characteristics of the micro- electronic device. Estimate the concentration of Al halfway into the Si thin film if the temperature is maintained at 1250 K for 10 h. Consider whether or not the process represents diffusion within a semi-infinite medium or in a finite-dimensional medium. At 1250 K, the maximum solubility of Al in Si is about 1 wt%. Solid-phase diffusivity data for common dopants in silicon are provided in Figure 24.12 and Table 24.7. Silicon thin film (0.5 μm) NA Aluminum thin film (species A) Wafer surface
Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
Section: Chapter Questions
Problem 1.1P
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Transcribed Image Text:27.2 Aluminum is the primary conductor material for fabrica-
tion of microelectronic devices. Consider the composite thin film
shown in the figure below. A thin film of solid aluminum is
sputter-coated onto a wafer surface. Then, a 0.50-μm thin film of
silicon is added on top of the aluminum film by chemical vapor
deposition of silane. If a high temperature is maintained during
subsequent processing steps, then the aluminum can diffuse into
the Si thin film and change the characteristics of the micro-
electronic device. Estimate the concentration of Al halfway into
the Si thin film if the temperature is maintained at 1250 K for
10 h. Consider whether or not the process represents diffusion
within a semi-infinite medium or in a finite-dimensional
medium. At 1250 K, the maximum solubility of Al in Si is
about 1 wt%. Solid-phase diffusivity data for common dopants
in silicon are provided in Figure 24.12 and Table 24.7.
Silicon thin film (0.5 μm)
NA
Aluminum thin film (species A)
Wafer surface
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