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Your search keyword '"Hajibaba, Soheil"' showing total 12 results
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12 results on '"Hajibaba, Soheil"'

1. Two-dimensional borophene: In-plane hyperbolic polaritons in the visible spectral range

Author

Abdi, Yaser, Taleb, Masoud, Hajibaba, Soheil, Moayedi, Mohsen, and Talebi, Nahid

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Two-dimensional metals, such as graphene, have undergone extensive exploration, with graphene exhibiting a metallic response limited to the infrared spectral range. Overcoming the challenge of extending the electron mobility in two-dimensional metals to achieve plasmonic behaviors in the visible range necessitates innovative synthesis procedures. In this study, we showcase the successful realization of the phase of \c{hi}_3 borophene on diverse substrates using aluminum-based chemical vapor deposition. Leveraging first-principle density-functional theory alongside advanced deep-subwavelength cathodoluminescence spectroscopy, we reveal the extreme anisotropic response of this material in the visible range, transitioning from hyperbolic polaritonic to an elliptic wavefront. Our calculations substantiate the experimental findings, positioning borophene as an unprecedented candidate for the in-plane hyperbolic response in the visible range. These results open avenues for pioneering optoelectronic applications in the visible spectrum, particularly through the incorporation of borophene into hybrid metallic-semiconducting heterostructures.

Published
2024

7. Aluminum-Activated Borophene Nanosheets with Enhanced Oxidation Resistance for Nanoelectronic Devices.

Author

Rezvani, Seyed Javad, Abdi, Yaser, Parmar, Rahul, Paparoni, Francesco, Antonini, Simone, Gunnella, Roberto, Di Cicco, Andrea, Amati, Matteo, Gregoratti, Luca, Mazaheri, Ali, and Hajibaba, Soheil

Abstract

Two-dimensional borophene nanosheets are sensitive to oxygen, which has hindered their development and use in scientific research and subsequent applications. Conventional methods of borophene synthesis are based on its epitaxial growth on single-crystal metal substrates by using molecular beam epitaxy (MBE). The electron deficiency of boron atoms in the borophene structure has made the use of metal substrates in the growth process inevitable. Hence, a method to stabilize the borophene sheets for further applications seems necessary. In this work, the oxidation arrangement of Al-activated chemical vapor deposition (CVD) of borophene sheets was investigated via scanning photoemission microscopy (SPEM). This method allows the investigation of oxidation ordering via its high spatial resolution and elemental sensitivity. The results indicate the persistence of the borophene χ3 (and some β12) phase after exposure to air. The formation of boron oxide is primarily limited to the Al aggregated islands and the edges while maintaining the borophene configuration intact. Our results show that the electronic exchange between the Al aggregates and the interface of boron atoms at the edges of the borophene sheet can prevent the oxidation process and preserve the borophene sheets for long periods. The lower oxidation tendency of the Al-saturated borophene was confirmed via density functional theory calculation, showing a lower oxygen binding energy on Al/borophene compared with that of the metal-free borophene. The oxidation-resistive borophene can be exploited in innovative high-efficiency catalytic, electronic, and sensing devices. [ABSTRACT FROM AUTHOR]

Published
2024
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8. A Two-Dimensional Borophene Supercapacitor

Author

Abdi, Yaser, primary, Mazaheri, Ali, additional, Hajibaba, Soheil, additional, Darbari, Sara, additional, Rezvani, Seyed Javad, additional, Cicco, Andrea Di, additional, Paparoni, Francesco, additional, Rahighi, Reza, additional, Gholipour, Somayeh, additional, Rashidi, Alimorad, additional, Byranvand, Mahdi Malekshahi, additional, and Saliba, Michael, additional

Published
2022
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12. Electrochemical sulfur-doping as an efficient method for dramatic capacitance enhancement in carbon-based supercapacitors

Author

Hajibaba, Soheil, Gholipour, Somayeh, Pourjafarabadi, Mahdieh, Bakhshayesh, Amirmahmoud, Byranvand, Mahdi Malekshahi, Saliba, Michael, and Abdi, Yaser

Abstract

Cost-efficient fabrication of electrochemical supercapacitors can herald high-capacity energy storage devices. In this work, a simple electrochemical sulfur doping in activated carbon (AC) is introduced, where the specific capacitance of the electrochemically sulfur-doped (ECD) supercapacitor is increased significantly from 147 to 440 F g−1at 1 A g−1. Surface characterizations, especially high-resolution transmission electron microscopy (HR-TEM), energy-dispersive X-ray spectroscopy (EDAX), and Fourier transform infrared spectroscopy (FTIR) confirm induced sulfur element in the carbon electrode after doping, as result of which the electrochemical measurement shows an increase of the specific capacitance. Moreover, a high energy density of ~15 Wh kg−1at 1 A g−1and almost 90 % capacitance retention at 20 A g−1after 5000 cycles is achieved. In addition, joint density functional theory (JDFT) is used for the rational design and verification of high-energy-density supercapacitors, supporting our experimental observations. This result paves the way toward further investigations on acid-assisted elemental doping of AC materials for energy storage devices.

Published
2023
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