We describe a procedure for the optimization of a 3C-SiC buffer layer for the deposition of 3C-SiC on (001) Si substrates. A 100 - 150 nm thick SiC buffer was deposited after a standard carbonization at 1125 °C, while increasing the temperature from 1125 °C to 1380 °C. Ramp time influenced the quality and the crystallinity of the buffer layer and the presence of voids at the SiC/Si interface. After the optimization of the buffer, to demonstrate its effectiveness, a highquality 3C-SiC was grown, with excellent surface morphology, crystallinity and low stress.

Buffer layer optimization for the growth of state of the art 3C-SiC/Si

Matteo Bosi;Giovanni Attolini;Marco Negri;Cesare Frigeri;Elisa Buffagni;Claudio Ferrari;Lucrezia Aversa;Roberta Tatti;Roberto Verucchi
2015

Abstract

We describe a procedure for the optimization of a 3C-SiC buffer layer for the deposition of 3C-SiC on (001) Si substrates. A 100 - 150 nm thick SiC buffer was deposited after a standard carbonization at 1125 °C, while increasing the temperature from 1125 °C to 1380 °C. Ramp time influenced the quality and the crystallinity of the buffer layer and the presence of voids at the SiC/Si interface. After the optimization of the buffer, to demonstrate its effectiveness, a highquality 3C-SiC was grown, with excellent surface morphology, crystallinity and low stress.
2015
Istituto dei Materiali per l'Elettronica ed il Magnetismo - IMEM
SiC growth
hot wall
buffer
optimization
temperature ramp
characterization
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/262550
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