Influence of high-k La2O3 interfacial oxide layer on the performance of GaN based Schottky barrier ultraviolet-B and A photodetection sensors

GaN based metal-semiconductor-metal (MSM) type Schottky heterojunction-based ultraviolet (UV) photodetectors (PDs) have already proven as an efficient candidate for photodetection applications. However, in real time applications, GaN based MSM type UV PD device display higher dark current, weak sign...

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Bibliographic Details
Published in:Optical materials 2025-01, Vol.158, p.116499, Article 116499
Main Authors: Nanda Kumar Reddy, Nallabala, Reddy, K Vamsidhar, Kaleemulla, S., Sharma, Shivani, Manjunath, V., Kumar, Suresh, Krishana, G. Gopi, Rosaiah, P., Ravi, N., Kummara, Venkata Krishnaiah, Kushvaha, Sunil Singh, Minnam Reddy, Vasudeva Reddy, Usmani, Yusuf Siraj
Format: Article
Language:English
Subjects:
Detectivity and external quantum efficiency
Responsivity
Schottky diode
Ultraviolet photodetector
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Summary:GaN based metal-semiconductor-metal (MSM) type Schottky heterojunction-based ultraviolet (UV) photodetectors (PDs) have already proven as an efficient candidate for photodetection applications. However, in real time applications, GaN based MSM type UV PD device display higher dark current, weak signal detection and required external bias are seriously limiting their usage. Therefore, self-powered interdigitated electrode type Cr/Cu/La2O3/GaN: MIS (metal-insulator-semiconductor) heterojunction visible blind UV PD has been fabricated and studied in UV-B and A region. The structure, morphology, chemical and optical parameters of La2O3 films were evaluated using GIXRD, AFM, XPS and UV–Vis techniques, respectively. The reported interdigitated Cr/Cu/La2O3/GaN: MIS UV PD device yielded a higher Schottky barrier height (SBH) of 0.95 eV (dark) and 0.89 eV (360 nm) indicating the formation of higher potential barrier. At an applied bias of 0 V, the fabricated GaN MIS PD yielded an UV to visible rejection ratio (R360/R400) of 1.62 × 102. In UV-A region (at 0 V of 360 nm), the fabricated Cr/Cu/La2O3/GaN: MIS UV PD device exhibited a peak responsivity of 28.9 mAW−1, D∗ of 3.57 × 1012 Jones and EQE of 19.2 %. On the other hand, in UV-B region (at 0 V of 310 nm) the MIS UV PD device exhibited a peak responsivity of 34.4 mAW−1, D∗ of 4.2 × 1012 Jones and EQE of 22.7 %. During 360 nm illumination (at 0 V), the temporal response measurements of GaN UV PD device yielded the best rise/fall times of 70 ms/141 ms. This work validates the fact that the high-k La2O3 thin film as an interfacial oxide layer at the metal/GaN interface provides a novel solution for the photo detection field in the self-powered mode i.e., without any external bias. •This work demonstrates Schottky barrier and ultraviolet photodetection parameters of Cr/Cu/La2O3/GaN heterojunction.•Employed cost-effective symmetric interdigitated Cr/Cu electrodes.•The transient measurements displayed stability even for four continues ON/OFF states of UV light.•The working mechanism of UV PDs were interpreted with the structural analysis at zero volts.
ISSN:0925-3467
DOI:10.1016/j.optmat.2024.116499