Optimizing charge transport in hybrid GaN-PEDOT:PSS/PMMADevice for advanced application

Fakhri, Makram A.; Salim, Evan T.; Ketab, Marwah R.; Jabbar, Haneen D.; Ibrahim, Omar A.; Azzahrani, Ahmad S.; AbdulRazzaq, Mohammed Jalal; Ismail, Raid A.; Basem, Ali; Alsultany, Forat H.; Gopinath, Subash C. B.

doi:10.1038/s41598-024-63197-3

Sci Rep

2024

DOI: 10.1038/s41598-024-63197-3

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Optimizing charge transport in hybrid GaN-PEDOT:PSS/PMMADevice for advanced application

Makram A. Fakhri,

Evan T. Salim,

Marwah R. Ketab

et al.

Abstract: Organic–inorganic hybrid light-emitting devices have garnered significant attention in the last few years due to their potential. These devices integrate the superior electron mobility of inorganic semiconductors with the remarkable optoelectronic characteristics of organic semiconductors. The inquiry focused on analyzing the optical and electrical properties of a light-emitting heterojunction that combines p-type GaN with organic materials (PEDOT, PSS, and PMMA). This heterojunction is an organic–inorganic hy… Show more

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Cited by 2 publications

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Effect of different laser energies on the structure of aluminum gallium nitride/Psi thin films

Abbas,

Fakhri,

Alwahib

et al. 2024

J Opt

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Effect of different laser energies on the structure of aluminum gallium nitride/Psi thin films

Abbas,

Fakhri,

Alwahib

et al. 2024

J Opt

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Synthesized aluminum gallium nitride/porous-Si thin films at different compositions by pulsed laser deposition method

Abbas,

Fakhri,

Alwahib

et al. 2024

Phys. Scr.

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A photo-electrochemical etching technique was used to create the porous silicon (PSi) substrate carefully. Then, using the pulsed laser deposition technique, a thin layer of Aluminum gallium nitride (AlGaN) target was accurately synthesized on this porous Si (PSi) substrate at different concentrations of Al2O3: GaN (25,50 and 75 %). The unique crystalline structure of the AlGaN thin film at (50:50%) of AlGaN structure with an average crystallite size of 24.9 nm was discovered by x-ray diffraction (XRD) analysis along the diffraction angles of 34.46⁰,34.52⁰, and 36.18 ⁰ correspond to the planes (002), (002), and (103) plane respectively. This deposition technique precisely improved the film quality and surface morphology. Oval particles were uniformly dispersed throughout the whole surface under the atomic force microscope (AFM). The RMS and surface roughness increased to 25.3 nm and 21.5 nm, respectively, when the composition percentage was increased to (50:50) %. The Aluminum gallium nitride (AlGaN) film deposited at 532 nm wavelength was imaged using a field emission scanning microscope (FESEM) and revealed to have a uniformly covered porous silicon substrate. This demonstrated that round particles were dispersed evenly and smoothly. The AlGaN film (50:50) % structure has a thickness of 3.1 µm in its cross-sectional area, showing how precisely the deposition process worked. In UV photoluminescence (PL), The AlGaN nanofilms prepared with 50:50% composition of Al2O3: GaN has a wavelength of 360 nm and an energy gap of 3.44 eV, which was near band edge emission of GaN. As expected, the AlGaN peak related to the band edge transitions exhibited a blue shift with increasing Al2O3 concentrations. The optical energy gap of the AlGaN thin film was discovered under UV-visible light. The resulting AlGaN showed energy band gaps of 3.2 eV, 3.44 eV, and 3.6 eV at 25,50, and 75 % concentration, respectively.

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Optimizing charge transport in hybrid GaN-PEDOT:PSS/PMMADevice for advanced application

Cited by 2 publications

References 59 publications

Effect of different laser energies on the structure of aluminum gallium nitride/Psi thin films

Effect of different laser energies on the structure of aluminum gallium nitride/Psi thin films

Synthesized aluminum gallium nitride/porous-Si thin films at different compositions by pulsed laser deposition method

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