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Optical and microstructural investigation of heavy B-doping effects in sublimation-grown 3C-SiC

Abstract

In this work, a complementary microstructural and optical approach is used to define processing conditions favorable for the formation of deep boron-related acceptor centers that may provide a pathway for achieving an intermediate band behavior in highly B-doped 3C-SiC. The crystallinity, boron solubility and precipitation mechanisms in sublimation-grown 3C-SiC crystals implanted to 1-3 at.% B concentrations were investigated by STEM. The revealed defect formation and boron precipitation trends upon thermal treatment in the range 1100-2000°C have been cross-correlated with the optical characterization results provided by imaging PL spectroscopy. We discuss optical activity of the implanted B ions in terms of both shallow acceptors and deep D-centers, a complex formed by a boron atom and a carbon vacancy, and associate the observed spectral developments upon annealing with the strong temperature dependence of the D-center formation efficiency, which is further enhanced by the presence of implantation-induced defects.

Category

Academic article

Client

  • NORTEM / 197405
  • Sigma2 / NN2615K
  • Research Council of Norway (RCN) / 229711
  • Sigma2 / nn2615k

Language

English

Author(s)

Affiliation

  • University of Oslo
  • SINTEF Industry / Sustainable Energy Technology
  • SINTEF Digital / Smart Sensors and Microsystems
  • Linköping University

Year

2018

Published in

Materials Science Forum

ISSN

0255-5476

Publisher

Trans Tech Publications

Volume

924

Page(s)

221 - 224

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