Synthesis of Diamond‐Like Carbon Films Deposited by the Ionization Vapor Method and Development of its Semiconductive Devices Fabricated by the Focused Ga Ion Beam Implantation

At a Glance

Metadata	Details
Publication Date	2018-02-01
Journal	Electronics and Communications in Japan
Authors	Satoshi Kurumi, Yusuke Takahara, Takafumi Ohno, Ken-ichi Matsuda, Kaoru Suzuki
Institutions	Nihon University
Citations	1

Abstract

SUMMARY In this study, we have attempted to synthesize the Gallium (Ga)‐implanted diamond‐like carbon (DLC) film for new functional devices as substituting Si‐based materials. Intrinsic‐DLC ( i ‐DLC) films (energy gap: 1.45 eV) were deposited by the ionization vapor method with applying the negative pulsed bias voltage (frequency: 2 kHz, duty ratio: 30%, peak voltage: 500 V) to SiO2 substrates. Ga atoms were implanted to i ‐DLC films as accepters utilizing by focused ion beam irradiation system. The Raman scattering spectra of i ‐DLC and Ga‐DLC films showed typical DLC characteristics which consisted of I (D) and I (G) peaks. In order to evaluate working function of the Ga‐DLC film, several electrode materials (Au, Pt, Cu, Al, and Sn) were deposited on the films. Current-voltage characteristics of Au and Pt electrodes on Ga‐DLC films showed Ohmic contacts, and Cu, Al, and Sn electrodes were Schottky contacts. These results suggested that a work function of the Ga‐DLC film was in the range of 4.47 eV to 4.58 eV. To apply these contact properties to DLC semiconductive devices, we produced the DLC Schottky diode using Al and Pt electrodes deposited on the Ga‐DLC film. A current-voltage characteristic of DLC Schottky diode showed diode property in which amount of forward and backward voltage were 7.0 V and 17.0 V, respectively. The ideality factor n of produced diode was 11.3.

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Original Source

DOI: https://doi.org/10.1002/ecj.12047

References

2009 - 1580‐V‐40 mΩ cm2 double‐RESURF MOSFETs on 4H‐SiC (0001) [Crossref]