A self-powered and broadband UV PIN photodiode employing a NiOx layer and a β-Ga<sub>2</sub>O<sub>3</sub> heterojunction

Vasquez, Jose Manuel Taboada; Ashai, Aasim; Lu, Yi; Khandelwal, Vishal; Rajbhar, Manoj K.; Kumar, Mritunjay; Li, Xiaohang; Sarkar, Biplab

doi:10.1088/1361-6463/acaed7

Cited by 11 publications

(5 citation statements)

References 48 publications

(74 reference statements)

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“…Figure 20), and is determined by the band alignment between the two materials, as reported previously in Ref. [78]. Under forward bias, the depletion layer of the p-n junction is collapsed, and holes diffuse into the Ga2O3.…”

Section: Application Of the Charge Injection Effect To Performance Co...supporting

confidence: 57%

Influence of Energetic Particles and Electron Injection on Minority Carrier Transport Properties in Gallium Oxide

Modak,

Ruzin,

Schulte

et al. 2024

Condensed Matter

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The influence of various energetic particles and electron injection on the transport of minority carriers and non-equilibrium carrier recombination in Ga2O3 is summarized in this review. In Ga2O3 semiconductors, if robust p-type material and bipolar structures become available, the diffusion lengths of minority carriers will be of critical significance. The diffusion length of minority carriers dictates the functionality of electronic devices such as diodes, transistors, and detectors. One of the problems in ultrawide-bandgap materials technology is the short carrier diffusion length caused by the scattering on extended defects. Electron injection in n- and p-type gallium oxide results in a significant increase in the diffusion length, even after its deterioration, due to exposure to alpha and proton irradiation. Furthermore, post electron injection, the diffusion length of an irradiated material exceeds that of Ga2O3 prior to irradiation and injection. The root cause of the electron injection-induced effect is attributed to the increase in the minority carrier lifetime in the material due to the trapping of non-equilibrium electrons on native point defects. It is therefore concluded that electron injection is capable of “healing” the adverse impact of radiation in Ga2O3 and can be used for the control of minority carrier transport and, therefore, device performance.

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Section: Application Of the Charge Injection Effect To Performance Co...supporting

confidence: 57%

Influence of Energetic Particles and Electron Injection on Minority Carrier Transport Properties in Gallium Oxide

Modak,

Ruzin,

Schulte

et al. 2024

Condensed Matter

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“…Related to photonics research, Professor Xiaohang Li's Advanced Semiconductor Laboratory [https://cemse.kaust.edu.sa/semiconductor] focused on the formation of ultrawide bandgap semiconductor for ultraviolet optoelectronic devices, notably in group-III-nitrides and group-III-oxides deep ultraviolet light-emitters [126], boron-containing nitrides [127], and Ga2O3 membrane [128]. The team has also reported > REPLACE THIS LINE WITH YOUR MANUSCRIPT ID NUMBER (DOUBLE-CLICK HERE TO EDIT) < significant work in semiconductor heterostructures design and deep-ultraviolet photodetectors [129], [130].…”

Section: Saudi Arabiamentioning

confidence: 99%

Globalization in Photonics Research and Development

Ng,

Rjeb,

Cox

et al. 2024

IEEE Photonics J.

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“…Unfortunately, realizing p-type β-Ga 2 O 3 is a significant challenge for numerous reasons [12]. Meanwhile, p-type NiO x has emerged as a potential candidate to complement the n-type β-Ga 2 O 3 films [13]. Consequently, NiO x /β-Ga 2 O 3 heterojunction based diodes exceeding kilovolts of breakdown voltage and amps of ON current have been recently demonstrated [14][15][16][17][18].…”

Section: Introductionmentioning

confidence: 99%

On band-to-band tunneling and field management in NiO_x/β-Ga₂O₃ PN junction and PiN diodes

Mukherjee,

Vasquez,

Ashai

et al. 2023

J. Phys. D: Appl. Phys.

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Due to the non-availability of p-type β-Ga2O3 films, p-type NiOx is gaining attention as a promising alternative to complement the n-type β-Ga2O3 films. This work investigated the band-to-band tunnelling (BTBT) related reverse leakage current in NiOx/β-Ga2O3 PN junction diodes. The analysis reveals that a low barrier between the valence band maxima of NiOx and conduction band minima of β-Ga2O3 may promote direct BTBT and trap-assisted BTBT currents during the reverse bias. On the contrary, NiOx/β-Ga2O3 diodes in PiN configuration offer a wider BTBT depletion width and lower peak electric field, lowering the reverse leakage current by orders of magnitude. Thus, we show that NiOx/β-Ga2O3 heterojunction diodes in PiN configuration offer better field management strategies and suppression of the reverse leakage. The analysis performed in this work is thought to be valuable in informing device-design of NiOx/β-Ga2O3 heterojunction diodes for future high-power applications.

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A self-powered and broadband UV PIN photodiode employing a NiOx layer and a β-Ga₂O₃ heterojunction

Cited by 11 publications

References 48 publications

Influence of Energetic Particles and Electron Injection on Minority Carrier Transport Properties in Gallium Oxide

Influence of Energetic Particles and Electron Injection on Minority Carrier Transport Properties in Gallium Oxide

Globalization in Photonics Research and Development

On band-to-band tunneling and field management in NiO_x/β-Ga₂O₃ PN junction and PiN diodes

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A self-powered and broadband UV PIN photodiode employing a NiOx layer and a β-Ga2O3 heterojunction

Cited by 11 publications

References 48 publications

Influence of Energetic Particles and Electron Injection on Minority Carrier Transport Properties in Gallium Oxide

Influence of Energetic Particles and Electron Injection on Minority Carrier Transport Properties in Gallium Oxide

Globalization in Photonics Research and Development

On band-to-band tunneling and field management in NiOx/β-Ga2O3 PN junction and PiN diodes

Contact Info

Product

Resources

About

A self-powered and broadband UV PIN photodiode employing a NiOx layer and a β-Ga₂O₃ heterojunction

On band-to-band tunneling and field management in NiO_x/β-Ga₂O₃ PN junction and PiN diodes