Thermal Oxidation of Silicon PDF

Summary

This document explains thermal oxidation of silicon, covering the process, uses, and different types of oxidation. It describes how the thickness of silicon dioxide impacts color and how it is employed in semiconductor manufacturing. The document also discusses the pros and cons of wet versus dry oxidation.

Full Transcript

Thermal Oxidation of Silicon
Surface of silicon wafer oxidizes to form Silicon Dioxide upon
exposure to oxygen.

Different thickness of the silicon dioxide layer produce different
colours.
 Thermal Oxidation of Silicon
Uses of silicon dioxide:

 Gate or Dielectric oxide
 Electrical insulator
 Barrier material during diffusion (introduce dopants into a region of the
silicon wafer)

SiO2
n
p
 Oxidation Process
Thermal oxidation is achieved by heating the silicon wafer to a high
temperature, usually 900 to 1200C.

Wet oxidation Dry oxidation
Si + 2H2O → SiO2+2H2 Si + O2 → SiO2
 Oxidation Growth

Growth rate of and silicon wafer is different.
 Silicon wafers are classified into or orientations to be
covered in Advanced Wafer Fabrication Technology
 MOS devices are usually fabricated using silicon because it yields
lower interface traps while BJT devices are fabricated using silicon
 Oxidation Growth

Wet oxidation is faster than Dry oxidation.
The longer the time the thicker is the oxide.
The higher the temperature the thicker is the oxide.
The growth rate is different at different thickness.
Oxide thickness calculations to be covered in Advanced Wafer Fabrication Technology
 Oxidation Growth
As new oxide is being
formed, the newest layer is
always at the bottom as the
oxygen molecules travel
through the oxide to react
with the silicon to form
new oxide.
Growth rate is therefore
different for different oxide
thickness & slower with
thicker oxide as the oxygen
molecules takes longer
time to travel through the Faster Slower
oxide.
 Oxide Quality & Applications
Wet oxidation is faster but the density of oxide is lower.
Dry oxidation is slower but the density of oxide is higher.
Therefore wet and dry oxide are used for different applications.

 Wet oxidation is much more
feasible & used to grow thick
masking or barrier oxide.
 One of the most important
properties of SiO2 is its ability
to mask or block dopants
during high-temperature
diffusion to form p or n
regions.
Oxide Quality & Applications
 Thick oxide for isolation are also
formed using wet oxidation.
 To achieve better quality oxide at the
silicon to oxide interface, a wet
followed by dry oxidation sequence is
employed.
Wet Oxide

Dry Oxide

Newest oxide grows at silicon-oxide
interface
 Oxide Quality & Applications

Thin gate oxide of MOS devices are formed using dry oxidation:
 Better quality oxide
 Difficult to control the fast rate of wet oxidation for thinness
Dielectric for capacitors are formed using dry oxidation.
A typical & more reasonable shorter process time for thick oxide
oxidation cycle usually consists of a dry-wet-dry sequence so that
the poorer but thick quality oxide is sandwiched by good quality
oxide.
Oxidation Technology
 Summary
Dry Oxidation, good quality but slow,
good for gate oxide or dielectric
Simply Si + O2 → SiO2

Wet Oxidation, fast but bad quality, for
isolation and diffusion masking
Si + 2H2O → SiO2 + 2H2