Electric properties of metal/diamond interfaces utilizing hydrogen-terminated surfaces of homoepitaxial diamonds

Makoto Aoki; Hiroshi Kawarada

doi:10.1143/JJAP.33.L708

Electric properties of metal/diamond interfaces utilizing hydrogen-terminated surfaces of homoepitaxial diamonds

Makoto Aoki, Hiroshi Kawarada

School of Fundamental Science and Engineering

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

23 Citations (Scopus)

Abstract

As-grown homoepitaxial diamond surfaces fabricated by chemical vapor deposition are terminated by hydrogen, and are expected to have a low density of surface states. On such diamond surfaces, high-quality Schottky contacts have been obtained utilizing metals with low electronegativities, such as A1 or Pb. The ideality factors of those point contacts to diamond are less than 1.1, which is the nearest value to unity ever reported in diamonds. Quantitative measurements of Schottky barrier heights at various metal contacts have also been performed. A strong correlation between the barrier heights and the metal electronegativities is observed. Even an ohmic property is obtained when metals with higher electronegativities were used. The effect of Fermi level pinning is reduced at the interfaces between metals and hydrogen-terminated diamonds.

Original language	English
Pages (from-to)	L708-L711
Journal	Japanese journal of applied physics
Volume	33
Issue number	5
DOIs	https://doi.org/10.1143/JJAP.33.L708
Publication status	Published - 1994 May

Keywords

2 x 1 reconstruction
As-grown surface
CVD diamond
Electronegativity
Hydrogen termination
Schottky barrier height
Surface state

ASJC Scopus subject areas

Engineering(all)
Physics and Astronomy(all)

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10.1143/JJAP.33.L708

Cite this

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title = "Electric properties of metal/diamond interfaces utilizing hydrogen-terminated surfaces of homoepitaxial diamonds",

abstract = "As-grown homoepitaxial diamond surfaces fabricated by chemical vapor deposition are terminated by hydrogen, and are expected to have a low density of surface states. On such diamond surfaces, high-quality Schottky contacts have been obtained utilizing metals with low electronegativities, such as A1 or Pb. The ideality factors of those point contacts to diamond are less than 1.1, which is the nearest value to unity ever reported in diamonds. Quantitative measurements of Schottky barrier heights at various metal contacts have also been performed. A strong correlation between the barrier heights and the metal electronegativities is observed. Even an ohmic property is obtained when metals with higher electronegativities were used. The effect of Fermi level pinning is reduced at the interfaces between metals and hydrogen-terminated diamonds.",

keywords = "2 x 1 reconstruction, As-grown surface, CVD diamond, Electronegativity, Hydrogen termination, Schottky barrier height, Surface state",

author = "Makoto Aoki and Hiroshi Kawarada",

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T1 - Electric properties of metal/diamond interfaces utilizing hydrogen-terminated surfaces of homoepitaxial diamonds

AU - Aoki, Makoto

AU - Kawarada, Hiroshi

PY - 1994/5

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N2 - As-grown homoepitaxial diamond surfaces fabricated by chemical vapor deposition are terminated by hydrogen, and are expected to have a low density of surface states. On such diamond surfaces, high-quality Schottky contacts have been obtained utilizing metals with low electronegativities, such as A1 or Pb. The ideality factors of those point contacts to diamond are less than 1.1, which is the nearest value to unity ever reported in diamonds. Quantitative measurements of Schottky barrier heights at various metal contacts have also been performed. A strong correlation between the barrier heights and the metal electronegativities is observed. Even an ohmic property is obtained when metals with higher electronegativities were used. The effect of Fermi level pinning is reduced at the interfaces between metals and hydrogen-terminated diamonds.

AB - As-grown homoepitaxial diamond surfaces fabricated by chemical vapor deposition are terminated by hydrogen, and are expected to have a low density of surface states. On such diamond surfaces, high-quality Schottky contacts have been obtained utilizing metals with low electronegativities, such as A1 or Pb. The ideality factors of those point contacts to diamond are less than 1.1, which is the nearest value to unity ever reported in diamonds. Quantitative measurements of Schottky barrier heights at various metal contacts have also been performed. A strong correlation between the barrier heights and the metal electronegativities is observed. Even an ohmic property is obtained when metals with higher electronegativities were used. The effect of Fermi level pinning is reduced at the interfaces between metals and hydrogen-terminated diamonds.

KW - 2 x 1 reconstruction

KW - As-grown surface

KW - CVD diamond

KW - Electronegativity

KW - Hydrogen termination

KW - Schottky barrier height

KW - Surface state

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Electric properties of metal/diamond interfaces utilizing hydrogen-terminated surfaces of homoepitaxial diamonds

Abstract

Keywords

ASJC Scopus subject areas

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