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Hauptverfasser: Ellis, Hunter, Jia, Wei, Rahaman, Imteaz, Hillas, Apostoli, Li, Botong, Scarpulla, Michael A., Rodriguez, Berardi Sensale, Fu, Kai
Format: Preprint
Veröffentlicht: 2025
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2503.14805
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author Ellis, Hunter
Jia, Wei
Rahaman, Imteaz
Hillas, Apostoli
Li, Botong
Scarpulla, Michael A.
Rodriguez, Berardi Sensale
Fu, Kai
author_facet Ellis, Hunter
Jia, Wei
Rahaman, Imteaz
Hillas, Apostoli
Li, Botong
Scarpulla, Michael A.
Rodriguez, Berardi Sensale
Fu, Kai
contents Ga2O3 Schottky barrier diodes featuring a field plate and a composite SiO2/SiNx dielectric layer beneath the field plate were fabricated, achieving a breakdown voltage of 2.4 kV at room temperature. Electrical performance and degradation were analyzed via I-V and C-V measurements from 25 °C to 500 °C, revealing temperature-dependent transport, interface stability, and device stability. Upon returning to room temperature, the diodes exhibited nearly unchanged forward characteristics, while the breakdown voltage declined significantly from 2.4 kV to 700 V. This behavior indicates a temperature-induced reduction in the barrier height. Detailed analysis revealed that variable range hopping (VRH) dominated the leakage mechanism at moderate temperatures, while thermal emission (TE) became increasingly significant at temperatures exceeding 400 °C.
format Preprint
id arxiv_https___arxiv_org_abs_2503_14805
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Degradation of 2.4-kV $Ga_{2}O_{3}$ Schottky Barrier Diode at High Temperatures up to 500 °C
Ellis, Hunter
Jia, Wei
Rahaman, Imteaz
Hillas, Apostoli
Li, Botong
Scarpulla, Michael A.
Rodriguez, Berardi Sensale
Fu, Kai
Materials Science
Ga2O3 Schottky barrier diodes featuring a field plate and a composite SiO2/SiNx dielectric layer beneath the field plate were fabricated, achieving a breakdown voltage of 2.4 kV at room temperature. Electrical performance and degradation were analyzed via I-V and C-V measurements from 25 °C to 500 °C, revealing temperature-dependent transport, interface stability, and device stability. Upon returning to room temperature, the diodes exhibited nearly unchanged forward characteristics, while the breakdown voltage declined significantly from 2.4 kV to 700 V. This behavior indicates a temperature-induced reduction in the barrier height. Detailed analysis revealed that variable range hopping (VRH) dominated the leakage mechanism at moderate temperatures, while thermal emission (TE) became increasingly significant at temperatures exceeding 400 °C.
title Degradation of 2.4-kV $Ga_{2}O_{3}$ Schottky Barrier Diode at High Temperatures up to 500 °C
topic Materials Science
url https://arxiv.org/abs/2503.14805