Deep-ultraviolet integrated photonic and optoelectronic devices: A prospect of the hybridization of group III–nitrides, III–oxides, and two-dimensional materials

Alfaraj, Nasir; Min, Jung‐Wook; Kang, Chun Hong; Alatawi, Abdullah A.; Priante, Davide; Subedi, Ram Chandra; Tangi, Malleswararao; Ng, Tien Khee; Ooi, Boon S.

doi:10.1088/1674-4926/40/12/121801

Cited by 36 publications

(30 citation statements)

References 793 publications

(841 reference statements)

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“…DUV photodetectors incorporating β‐Ga 2 O 3 thin films have been the subject of extensive studies since the introduction of epitaxial deposition techniques for group III‐oxide materials because they enhance photosensitivity and solar‐blind photodetection characteristics. [ 1–3 ] However, previous research has never investigated the hybrid integration of β‐Ga 2 O 3 on transition metal nitride lattice templates, which offers excellent electrical conductivity and catalytic properties. With respect to optoelectronics, most researchers have so far focused on ultrawide‐bandgap group III‐oxides‐based devices grown and fabricated directly on bulk hexagonal phase alpha‐polymorph aluminum oxide (i.e., α‐Al 2 O 3 or sapphire) substrates, [ 4,5 ] which are suitable for hexagonal phase material epitaxy and suffer from considerably lower thermal conductivity and relatively higher thermal expansion coefficients than other inorganic platforms.…”

Section: Introductionmentioning

confidence: 99%

“…With respect to optoelectronics, most researchers have so far focused on ultrawide‐bandgap group III‐oxides‐based devices grown and fabricated directly on bulk hexagonal phase alpha‐polymorph aluminum oxide (i.e., α‐Al 2 O 3 or sapphire) substrates, [ 4,5 ] which are suitable for hexagonal phase material epitaxy and suffer from considerably lower thermal conductivity and relatively higher thermal expansion coefficients than other inorganic platforms. [ 1 ]…”

Section: Introductionmentioning

confidence: 99%

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Heteroepitaxial β‐Ga₂O₃ on Conductive Ceramic Templates: Toward Ultrahigh Gain Deep‐Ultraviolet Photodetection

Alfaraj

Alawein

et al. 2021

Adv Materials Technologies

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This article investigates the ultrahigh sensitivity and DUV photodetection capability of a hybrid oxide‐nitride stack comprising β‐Ga2O3 layers grown heterogeneously on a conductive ceramic crystal. The ceramic crystal, namely a TiN interlayer, which acts as a lattice template, was heteroepitaxially grown on bulk MgO. Because β‐Ga2O3 is a monoclinic phase crystal, it is conjectured that its nucleation and growth process on cubic phase TiN is entropic in nature, whereby the two unit cell configurations of the β‐Ga2O3 crystal, exhibiting rotational twin domains, grew alternately side by side in a semiperiodic manner on TiN while maintaining a single crystal phase. This film formation mechanism contributed to the introduction of additional defects in the β‐Ga2O3 lattice (Taylor's dislocations in addition to growth‐induced vacancies). The fabricated DUV photodetectors based on the resulting metal‐semiconductor junction heterodiodes exhibited an average peak spectral responsivity of 276.72 A W−1 and fast decay constants in the order of 500 ms in the ultraviolet‐C regime, with true solar‐blind characteristics manifested by ultraviolet‐to‐visible rejection ratios of up to 2 × 103 and illuminating power density of around 70 μW cm−2. The crystallographic orientation relationships between the TiN and β‐Ga2O3 crystals, as well as the lattice fit and dislocation types, are revealed and examined.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Heteroepitaxial β‐Ga₂O₃ on Conductive Ceramic Templates: Toward Ultrahigh Gain Deep‐Ultraviolet Photodetection

Alfaraj

Alawein

et al. 2021

Adv Materials Technologies

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“…When an external voltage is applied to the electrodes, one of the Schottky diodes is biased forward while the other one is biased backward. In between the electrodes on the semiconductor, incident light creates carriers that are drifted by the electric field (which is a pure drift photocurrent) as there is no diffusion component to slow down the device response [6][7][8][9][10][11][12][13][14][15][16][17]. The notion of an MSM-PD was first presented in 1979, and various research groups later reported the actual production of MSM-PDs [6,[18][19][20][21].…”

Section: Introductionmentioning

confidence: 99%

“…The notion of an MSM-PD was first presented in 1979, and various research groups later reported the actual production of MSM-PDs [6,[18][19][20][21]. The MSM-PD has unique characteristics, such as high optical light sensitivity and facile and cost-effective manufacture on a variety of substrates such as Si, SiO 2 , and GaAs, making them an excellent choice for application in current ultra-high-speed communication systems [4][5][6][7][8][9][10][11][12][13][14][15][16][17][18]21,22].…”

Section: Introductionmentioning

confidence: 99%

Nano-grating Assisted Light Absorption Enhancement for MSM-PDs Performance Improvement: An Updated Review

et al. 2021

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The primary focus of this review article mainly emphasizes the light absorption enhancement for various nanostructured gratings assisted metal-semiconductor-metal photodetectors (MSM-PDs) that are so far proposed and developed for the improvement of light capturing performance. The MSM-PDs are considered as one of the key elements in the optical and high-speed communication systems for applications such as faster optical fiber communication systems, sensor networks, high-speed chip-to-chip interconnects, and high-speed sampling. The light absorption enhancement makes the MSM-PDs an ideal candidate due to their excellent performances in detection, especially in satisfying the high-speed or high-performance device requirements. The nano-grating assisted MSM-PDs are preordained to be decorous for many emerging and existing communication device applications. There have been a significant number of research works conducted on the implementation of nano-gratings, and still, more researches are ongoing to raise the performance of MSM-PDs particularly, in terms of enhancing the light absorption potentialities. This review article aims to provide the latest update on the exertion of nano-grating structures suitable for further developments in the light absorption enhancement of the MSM-PDs.

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“…16 Hence, the likelihood of achieving highly efficient AlGaN-based deep-UV surface emitters is severely compromised if we simply employ an Al-rich AlGaN composition. While the exploration of a new material system is one of the possible ways to obtain highly efficient deep-UV devices, [17][18][19][20] developing a new material system and translating the system to an industrial application is non-trivial. Thus, employing novel nanostructures and nanofabrication techniques in an already well-developed technology is more likely to receive industrial adoption to accomplish highly efficient deep-UV emitters.…”

Section: Introductionmentioning

confidence: 99%

Highly efficient transverse-electric-dominant ultraviolet-C emitters employing GaN multiple quantum disks in AlN nanowire matrix

Subedi

Min

Mitra

et al. 2021

Gallium Nitride Materials and Devices XVI

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Heavy reliance on extensively studied AlGaN based light emitting diodes (LEDs) to replace environmentally hazardous mercury based ultraviolet (UV) lamps is inevitable. However, external quantum efficiency (EQE) for AlGaN based deep UV emitters remains poor. Dislocation induced nonradiative recombination centers and poor electron-hole wavefunction overlap due to the large polarization field induced quantum confined stark effect (QCSE) in "Al" rich AlGaN are some of the key factors responsible for poor EQE. In addition, the transverse electric polarized light is extremely suppressed in "Al"-rich AlGaN quantum wells (QWs) because of the undesired crossing over among the light hole (LH), heavy hole (HH) and crystal-field split-off (SH) states. Here, optical and structural integrities of dislocation-free ultrathin GaN quantum disk (QDisk) (~ 1.2 nm) embedded in AlN barrier (~ 3 nm) grown employing plasma-assisted molecular beam epitaxy (PAMBE) are investigated considering it as a novel nanostructure to realize highly efficient TE polarized deep UV emitters. The structural and chemical integrities of thus grown QDisks are investigated by high angle annular dark field scanning transmission electron microscopy (HAADF-STEM). We, particularly, emphasize the polarization dependent photoluminescence (PL) study of the GaN Disks to accomplish almost purely TE polarized UV (~ 260 nm) light. In addition, we observed significantly high internal quantum efficiency (IQE) of ~ 80 %, which is attributed to the enhanced overlap of the electron-hole wavefunction in extremely quantum confined ultrathin GaN QDisks, thereby presenting GaN QDisks embedded in AlN nanowires as a practical pathway towards the efficient deep UV emitters.

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Deep-ultraviolet integrated photonic and optoelectronic devices: A prospect of the hybridization of group III–nitrides, III–oxides, and two-dimensional materials

Abstract: Deep-ultraviolet integrated photonic and optoelectronic devices: A prospect of the hybridization of group III-nitrides, III-oxides, and twodimensional materials To cite this article: Nasir Alfaraj et al 2019 J. Semicond. 40 121801 View the article online for updates and enhancements.

Cited by 36 publications

References 793 publications

Heteroepitaxial β‐Ga₂O₃ on Conductive Ceramic Templates: Toward Ultrahigh Gain Deep‐Ultraviolet Photodetection

Heteroepitaxial β‐Ga₂O₃ on Conductive Ceramic Templates: Toward Ultrahigh Gain Deep‐Ultraviolet Photodetection

Nano-grating Assisted Light Absorption Enhancement for MSM-PDs Performance Improvement: An Updated Review

Highly efficient transverse-electric-dominant ultraviolet-C emitters employing GaN multiple quantum disks in AlN nanowire matrix

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Deep-ultraviolet integrated photonic and optoelectronic devices: A prospect of the hybridization of group III–nitrides, III–oxides, and two-dimensional materials

Abstract: Deep-ultraviolet integrated photonic and optoelectronic devices: A prospect of the hybridization of group III-nitrides, III-oxides, and twodimensional materials To cite this article: Nasir Alfaraj et al 2019 J. Semicond. 40 121801 View the article online for updates and enhancements.

Cited by 36 publications

References 793 publications

Heteroepitaxial β‐Ga2O3 on Conductive Ceramic Templates: Toward Ultrahigh Gain Deep‐Ultraviolet Photodetection

Heteroepitaxial β‐Ga2O3 on Conductive Ceramic Templates: Toward Ultrahigh Gain Deep‐Ultraviolet Photodetection

Nano-grating Assisted Light Absorption Enhancement for MSM-PDs Performance Improvement: An Updated Review

Highly efficient transverse-electric-dominant ultraviolet-C emitters employing GaN multiple quantum disks in AlN nanowire matrix

Contact Info

Product

Resources

About

Heteroepitaxial β‐Ga₂O₃ on Conductive Ceramic Templates: Toward Ultrahigh Gain Deep‐Ultraviolet Photodetection

Heteroepitaxial β‐Ga₂O₃ on Conductive Ceramic Templates: Toward Ultrahigh Gain Deep‐Ultraviolet Photodetection