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Thermally enhanced hole injection and breakdown in a Schottky-metal/<i>p</i>-GaN/AlGaN/GaN device under forward bias

Xi Tang, Ran Qiu, Yuhan Liu, Baikui Li

2020Applied Physics Letters21 citationsDOI

Abstract

In this work, the breakdown characteristics and the electroluminescence (EL) spectra of a Schottky-metal/p-GaN/AlGaN/GaN device under forward bias were investigated at different temperatures. The failure of the metal/p-GaN junction, which was caused by electron transport in the p-type Schottky junction, was identified as the first step in the device breakdown process. The breakdown voltage increased with higher temperatures. Under a forward bias of 8 V, the intensity of the EL emission increased more than two orders of magnitude, while the current increased by a factor of 4 as the temperature increased from 0 °C to 200 °C. This unambiguously demonstrated thermally enhanced hole injection at the Schottky-metal/p-GaN interface. We proposed that more electrons were annihilated by the thermally enhanced hole injection, resulting in the positive temperature dependence of the device breakdown.

Topics & Concepts

Materials scienceSchottky diodeElectroluminescenceOptoelectronicsSchottky barrierBreakdown voltageWide-bandgap semiconductorGallium nitrideMetalAnalytical Chemistry (journal)VoltageChemistryDiodeNanotechnologyLayer (electronics)Electrical engineeringChromatographyMetallurgyEngineeringGaN-based semiconductor devices and materialsSemiconductor materials and devicesSemiconductor materials and interfaces
Thermally enhanced hole injection and breakdown in a Schottky-metal/<i>p</i>-GaN/AlGaN/GaN device under forward bias | Litcius