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High Rate Silicon Carbide Polishing to Ultra-smooth Surfaces

Published online by Cambridge University Press:  01 February 2011

Michael White ,
Kevin Moeggenborg ,
Francois Batllo ,
Jeffrey Gilliland  and
Nevin Naguib
Michael White
Affiliation:
[email protected], Cabot Microelectronics, Engineered Surface Finishes, 870 N. Commons Dr., Aurora, IL, 60504, United States, (630)551-3945
Kevin Moeggenborg
Affiliation:
[email protected], Cabot Microelectronics, Aurora, IL, 60504, United States
Francois Batllo
Affiliation:
[email protected], Cabot Microelectronics, Aurora, IL, 60504, United States
Jeffrey Gilliland
Affiliation:
[email protected], Cabot Microelectronics, Aurora, IL, 60504, United States
Nevin Naguib
Affiliation:
[email protected], Cabot Microelectronics, Aurora, IL, 60504, United States
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Abstract

Silicon Carbide has a unique combination of properties that include a nearly diamond-like hardness, intrinsic electrical semiconductivity and a high thermal conductivity. This combination of properties has led to it's use in a number of applications including substrates for Light Emitting Diodes (LEDs), power, RF (radio frequency) and other electronic devices in addition to mirror substrates and optical devices as well as stop layers in integrated circuit chip manufacture. In addition, the chemical inertness and high hardness of SiC has historically resulted in low removal rates during chemical mechanical Planarization (CMP). Recent efforts in our labs have led to being able to polish single crystal silicon carbide at removal rates up to 400 nm/hr yielding a root mean squared roughness on the order of a nanometer as determined by AFM and interferometry. The high rates and smoothness obtained are expected to translate to other types of silicon carbide. Fundamental studies by FTIR, streaming potential and ESCA have been done to elucidate the mechanism of silicon carbide polishing.

Keywords

CMPchemical reactionkinetics
Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 991: Symposium C – Advances and Challenges in Chemical Mechanical Planarization , 2007 , 0991-C07-02
Copyright
Copyright © Materials Research Society 2007

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References

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