Ab’initio studies of the structural and electronic properties for single-walled armchair MgONT, SiCNTs and ZnONTs for next generations’ optoelectronics

Itas, Yahaya Saadu; Suleiman, Abdussalam Balarabe; Yamusa, Aminu Shehu; Razali, Razif; Danmadami, Amina Mohammad

doi:10.54117/gjpas.v1i2.42

Cited by 14 publications

(11 citation statements)

References 5 publications

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“…The efficiency rate of photocatalysts depends on their light absorption properties which are dependent on the imaginary dielectric constant. 20 We define the optical response of photocatalyst materials to the incident solar radiation in terms of the real and imaginary dielectrics as 21 ε ( ω ) = ε 1 ( ω ) + ε 2 ( ω )where ε 1 ( ω ) is the real part and ε 2 ( ω ) is the imaginary part of the optical dielectric constant. The real part of the dielectric function takes care of the photon energy dispersion, while the imaginary part of the dielectric function describes the photon energy absorption.…”

Section: Resultsmentioning

confidence: 99%

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The potentials of boron-doped (nitrogen deficient) and nitrogen-doped (boron deficient) BNNT photocatalysts for decontamination of pollutants from water bodies

et al. 2023

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Section: Resultsmentioning

confidence: 99%

“…The efficiency rate of photocatalysts depends on their light absorption properties which are dependent on the imaginary dielectric constant. 20 We dene the optical response of photocatalyst materials to the incident solar radiation in terms of the real and imaginary dielectrics as 21…”

Section: Optical Absorptionsmentioning

confidence: 99%

The potentials of boron-doped (nitrogen deficient) and nitrogen-doped (boron deficient) BNNT photocatalysts for decontamination of pollutants from water bodies

et al. 2023

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“…Although both results fall within the band gap range of the photocatalyst, the GGA value was an underestimate, while the G 0 W 0 value gives the exact band gap obtained. Furthermore, the band gap obtained is direct since VBM and CBM all have the same momentum . As can be seen, the CBMs of the MoS 2 -doped SWBNNT are larger than the H + /H 2 potential (−4.40 eV), so they are suitable photocatalysts for the half-reaction of hydrogen reduction .…”

Section: Resultsmentioning

confidence: 99%

“…Furthermore, the band gap obtained is direct since VBM and CBM all have the same momentum. 27 As can be seen, the CBMs of the MoS 2 -doped SWBNNT are larger than the H + /H 2 potential (−4.40 eV), so they are suitable photocatalysts for the half-reaction of hydrogen reduction. 28 Based on the obtained results, it can be shown that the (12,12) MoS 2 -doped SWBNNT semiconductor can be an excellent candidate for enhanced photocatalytic water splitting.…”

Section: Effects Of Mos 2 Doping On the Electronic (Photocatalytic) P...mentioning

confidence: 97%

DFT Studies of the Photocatalytic Properties of MoS₂-Doped Boron Nitride Nanotubes for Hydrogen Production

Itas,

Suleiman,

Ndikilar

et al. 2023

ACS Omega

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This study investigated the photocatalytic properties of MoS 2doped boron nitride nanotubes (BNNTs) for overall water splitting using popular density functional theory (DFT). Calculations of the structural, mechanical, electronic, and optical properties of the investigated systems were performed using both the generalized gradient approximation and the GW quasi-particle correction methods. In our calculations, it was observed that only (10, 10) and ( 12, 12) single-walled BNNTs (SWBNNTs) turned out to be stable toward MoS 2 doping. Electronic property calculations revealed metallic behavior of (10, 10)-MoS 2 -doped SWBNNTs, while the band gap of (12, 12) SWBNNT was narrowed to 2.5 eV after MoS 2 doping, which is within the obtained band gaps for other photocatalysts. Hence, MoS 2 influences the conduction band of pure BNNT and improves its photocatalytic properties. The water-splitting photocatalytic behavior is found in (12, 12) MoS 2 -doped SWBNNT, which showed higher water oxidation (OH − /O 2 ) and reduction (H + /H 2 ) potentials. In addition, optical spectral calculations showed that MoS 2 -doped SWBNNT had an optical absorption edge of 2.6 eV and a higher absorption in the visible region. All of the studied properties confirmed MoS 2 -doped SWBNNT as a better candidate for nextgeneration photocatalysts for hydrogen evolution through the overall water-splitting process.

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“…Te quasi-particle band gaps are formed from the weak interactions of SWCNT and SWBNNT atoms which are renormalized to smaller values in the presence of dielectric substrates of boron nitride nanotubes [22]. Te narrowing of the band gap is due to the polarization-induced screening efects which change the correlation energy of the SWCNT orbitals which stabilizes the valence band [23].…”

Section: Electronic Transport Of Dwcbnntmentioning

confidence: 99%

First-Principle Studies of the Structural, Electronic, and Optical Properties of Double-Walled Carbon Boron Nitride Nanostructures Heterosystem under Various Interwall Distances

Itas

Suleiman²,

Ndikilar³

et al. 2023

Journal of Chemistry

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Structural, electronic, and optical properties of a new combined system of carbon and boron nitride nanotubes are studied using the DFT first principles as implemented in Quantum ESPRESSO codes. The corrections to the quasi-particle energies were studied via GW hybrid functional implemented in the YAMBO code within the many-body perturbation theory. The studies were performed under different interwall distances of 3.0 nm, 2.5 nm, and 1.5 nm between CNTs and BNNTs. The results showed that the structural properties demonstrated high stability of the double-walled carbon boron nitride nanotube (DWCBNNT) systems under interwall distance (IWD) of 3.00 nm, 2.50 nm, and 1.50 nm. Results also demonstrated an inverse variation between the IWD and the diameter of the DWCBNNT system. In terms of the electronic properties, all three configurations of the DWCBNNTs reveal semiconducting behavior under KS-DFT showing a direct band gap of 3.30 eV, 1.79 eV, and 0.81 eV under IWD of 3.0 nm, 2.5 nm, and 1.5 nm, respectively. Furthermore, the band gap of the DWCBNNT increases with an increase in IWD (decrease in inner tube diameter) and decreases with a decrease in IWD (increase in inner tube diameter). In all three cases, the bands are formed by the molecular orbitals of the armchair CBNNT which are transformed to a series of continuous energy levels; the behaviors of electrons that formed the heterostructure are related to the behavior of electrons in B, C, and N atoms. From the optical properties perspective, the studies were conducted in parallel and perpendicular directions to the nanotubes’ axes. The presence of static dielectric functions in parallel direction at 3.3, 3.4, and 4.5 for nanotubes under 3.0 nm, 2.5 nm, and 1.5 nm demonstrated optical refraction. Refractions were also observed in directions perpendicular to the nanotubes. Furthermore, optical reflections occur when there is a higher absorption. The ability of these CBNNT hybrid systems to refract in all directions revealed the most exciting properties of the armchair CBNNT suitable to be used in magnifying glass materials. The findings further imply that the optical absorption coefficient is inversely related to the diameter of the nanotubes and is directly correlated to the band gap.

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Ab’initio studies of the structural and electronic properties for single-walled armchair MgONT, SiCNTs and ZnONTs for next generations’ optoelectronics

Cited by 14 publications

References 5 publications

The potentials of boron-doped (nitrogen deficient) and nitrogen-doped (boron deficient) BNNT photocatalysts for decontamination of pollutants from water bodies

The potentials of boron-doped (nitrogen deficient) and nitrogen-doped (boron deficient) BNNT photocatalysts for decontamination of pollutants from water bodies

DFT Studies of the Photocatalytic Properties of MoS₂-Doped Boron Nitride Nanotubes for Hydrogen Production

First-Principle Studies of the Structural, Electronic, and Optical Properties of Double-Walled Carbon Boron Nitride Nanostructures Heterosystem under Various Interwall Distances

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Ab’initio studies of the structural and electronic properties for single-walled armchair MgONT, SiCNTs and ZnONTs for next generations’ optoelectronics

Cited by 14 publications

References 5 publications

The potentials of boron-doped (nitrogen deficient) and nitrogen-doped (boron deficient) BNNT photocatalysts for decontamination of pollutants from water bodies

The potentials of boron-doped (nitrogen deficient) and nitrogen-doped (boron deficient) BNNT photocatalysts for decontamination of pollutants from water bodies

DFT Studies of the Photocatalytic Properties of MoS2-Doped Boron Nitride Nanotubes for Hydrogen Production

First-Principle Studies of the Structural, Electronic, and Optical Properties of Double-Walled Carbon Boron Nitride Nanostructures Heterosystem under Various Interwall Distances

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DFT Studies of the Photocatalytic Properties of MoS₂-Doped Boron Nitride Nanotubes for Hydrogen Production