High-throughput screening of Si-Ni flux for SiC solution growth using a high-temperature laser microscope observation and secondary ion mass spectroscopy depth profiling

Shingo Maruyama; Aomi Onuma; Kazuhisa Kurashige; Tomohisa Kato; Hajime Okumura; Yuji Matsumoto

doi:10.1021/co400009z

High-throughput screening of Si-Ni flux for SiC solution growth using a high-temperature laser microscope observation and secondary ion mass spectroscopy depth profiling

Shingo Maruyama, Aomi Onuma, Kazuhisa Kurashige, Tomohisa Kato, Hajime Okumura, Yuji Matsumoto

ENG - Applied Chemistry

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

Screening of Si-based flux materials for solution growth of SiC single crystals was demonstrated using a thin film composition-spread technique. The reactivity and diffusion of carbon in a composition spread of the flux was investigated by secondary ion mass spectroscopy depth profiling of the annealed flux thin film spread on a graphite substrate. The composition dependence of the chemical interaction between a seed crystal and flux materials was revealed by high-temperature thermal behavior observation of the flux and the subsequent morphological study of the surface after removing the flux using atomic force microscopy. Our new screening approach is shown to be an efficient process for understanding flux materials for SiC solution growth.

Original language	English
Pages (from-to)	287-290
Number of pages	4
Journal	ACS Combinatorial Science
Volume	15
Issue number	6
DOIs	https://doi.org/10.1021/co400009z
Publication status	Published - 2013 Jun 10

Keywords

SiC solution growth
high temperature laser microscope
high-throughput screening
pulsed laser deposition

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10.1021/co400009z

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title = "High-throughput screening of Si-Ni flux for SiC solution growth using a high-temperature laser microscope observation and secondary ion mass spectroscopy depth profiling",

abstract = "Screening of Si-based flux materials for solution growth of SiC single crystals was demonstrated using a thin film composition-spread technique. The reactivity and diffusion of carbon in a composition spread of the flux was investigated by secondary ion mass spectroscopy depth profiling of the annealed flux thin film spread on a graphite substrate. The composition dependence of the chemical interaction between a seed crystal and flux materials was revealed by high-temperature thermal behavior observation of the flux and the subsequent morphological study of the surface after removing the flux using atomic force microscopy. Our new screening approach is shown to be an efficient process for understanding flux materials for SiC solution growth.",

keywords = "SiC solution growth, high temperature laser microscope, high-throughput screening, pulsed laser deposition",

author = "Shingo Maruyama and Aomi Onuma and Kazuhisa Kurashige and Tomohisa Kato and Hajime Okumura and Yuji Matsumoto",

year = "2013",

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TY - JOUR

T1 - High-throughput screening of Si-Ni flux for SiC solution growth using a high-temperature laser microscope observation and secondary ion mass spectroscopy depth profiling

AU - Maruyama, Shingo

AU - Onuma, Aomi

AU - Kurashige, Kazuhisa

AU - Kato, Tomohisa

AU - Okumura, Hajime

AU - Matsumoto, Yuji

PY - 2013/6/10

Y1 - 2013/6/10

N2 - Screening of Si-based flux materials for solution growth of SiC single crystals was demonstrated using a thin film composition-spread technique. The reactivity and diffusion of carbon in a composition spread of the flux was investigated by secondary ion mass spectroscopy depth profiling of the annealed flux thin film spread on a graphite substrate. The composition dependence of the chemical interaction between a seed crystal and flux materials was revealed by high-temperature thermal behavior observation of the flux and the subsequent morphological study of the surface after removing the flux using atomic force microscopy. Our new screening approach is shown to be an efficient process for understanding flux materials for SiC solution growth.

AB - Screening of Si-based flux materials for solution growth of SiC single crystals was demonstrated using a thin film composition-spread technique. The reactivity and diffusion of carbon in a composition spread of the flux was investigated by secondary ion mass spectroscopy depth profiling of the annealed flux thin film spread on a graphite substrate. The composition dependence of the chemical interaction between a seed crystal and flux materials was revealed by high-temperature thermal behavior observation of the flux and the subsequent morphological study of the surface after removing the flux using atomic force microscopy. Our new screening approach is shown to be an efficient process for understanding flux materials for SiC solution growth.

KW - SiC solution growth

KW - high temperature laser microscope

KW - high-throughput screening

KW - pulsed laser deposition

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High-throughput screening of Si-Ni flux for SiC solution growth using a high-temperature laser microscope observation and secondary ion mass spectroscopy depth profiling

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Keywords

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