Electrical parameters of Au/n-GaN and Pt/n-GaN Schottky diodes

•The electrical properties of Au and Pt Schottky diodes to GaN are investigated.•Rs frequency dependence were extracted from (C–V–f) characteriztics.•For Pt/n-GaN the interface state density (NSS) rises exponentially with bias.•Au/n-GaN behaves like two diodes in parallel with two barrier heights.•C...

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Bibliographic Details
Published in:Superlattices and microstructures 2015-06, Vol.82, p.269-286
Main Authors: Kadaoui, Mustapha Amine, Bouiadjra, Wadi Bachir, Saidane, Abdelkader, Belahsene, Sofiane, Ramdane, Abderrahim
Format: Article
Language:English
Subjects:
Au/n-GaN
C–V–f characterization
Electrical properties
I–V characterization
Pt/n-GaN
Schottky diodes
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Summary:•The electrical properties of Au and Pt Schottky diodes to GaN are investigated.•Rs frequency dependence were extracted from (C–V–f) characteriztics.•For Pt/n-GaN the interface state density (NSS) rises exponentially with bias.•Au/n-GaN behaves like two diodes in parallel with two barrier heights.•C–V–f results confirm the presence of a native interfacial insulator. Electrical properties of Si-doped GaN epitaxial layers, grown on a c-plane sapphire substrate by MOCVD to form Schottky diodes with Gold (Au) and platinum (Pt) and using Ti/Al/Au as Ohmic contact, are investigated. Characterization was performed through I–V and C–V–f measurements at room temperature. Schottky barrier height (Φb), ideality factor (n), and series resistance (Rs) were extracted from forward I–V characteriztics using Cheung and Lien methods. Φb, doping concentration (Nd) and Rs frequency dependence were extracted from C–V–f characteriztics. Pt/n-GaN shows a non-linear behavior with a barrier height of 0.63eV, an ideality factor of 2.3, and series resistance of 63Ω. Au/n-GaN behaves like two diodes in parallel with two barrier heights of (0.83 and 0.9eV), two ideality factors of (5.8 and 3.18) and two series resistance of (10.6 and 68Ω). Interface state properties in both samples have been investigated taking into account the bias dependence of the effective barrier height. The amount of stimulated traps along the energy-gap at the interface increases with voltage bias, which increases NSS exponentially from 4.24⋅1013 to 3.67⋅1014eV−1cm−2 in the range (Ec – 0.17) to (Ec – 0.61) eV for Pt/n-GaN, and from 2.3⋅1013 to 1.14⋅1014eV−1cm−2, in the range (Ec – 0.31) to (Ec – 0.82) eV for Au/n-GaN. The values of interface states density and series resistance for both samples are found to decrease with increasing frequency. Peak intensity was a measure of active interface states. C–V–f results confirm the model of the Schottky diode with a native interfacial insulator layer along the space charge region.
ISSN:0749-6036
1096-3677
DOI:10.1016/j.spmi.2015.02.007