Thin PSG Process for 4H-SiC MOSFET

Authors :: Aaron Modic
Philip Mawby
Tamara Isaacs-Smith
Stpehen M. Thomas
Leonard C. Feldman
Yogesh K. Sharma
Ayayi C. Ahyi
Michael R. Jennings
Yi Xu
Sarit Dhar
Craig A. Fisher
John R. Williams
Eric Granfukel
Source :: Materials Science Forum. :513-516
Publication Year :: 2014
Publisher :: Trans Tech Publications, Ltd., 2014.
Abstract: The use of phosphorous as a passivating agent for the SiO2/4H-SiC interface increases the field effect channel mobility of 4H-SiC MOSFET to twice the value, 30-40cm2/V-s, that is obtained with a high temperature anneal in nitric oxide (NO). A solid SiP2O7planar diffusion source is used to produce P2O5for the passivation of the interface. Incorporation of phosphorous into SiO2leads to formation of phosphosilicate glass (PSG) which is known to be a polar material causes device instability. With a new modified thin phosphorous (P) passivation process, as described in this abstract, we can improve the stability of MOSFETs significantly with mobility around 75cm2/V.s.