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1. Hybrid plasmonic Bound State in the Continuum entering the zeptomolar biodetection range

Author

Clabassi, Elena, Balestra, Gianluca, Siciliano, Giulia, Polimeno, Laura, Tarantini, Iolena, Primiceri, Elisabetta, Tobaldi, David Maria, Cuscunà, Massimo, Quaranta, Fabio, Passaseo, Adriana, Rainer, Alberto, Romano, Silvia, Zito, Gianluigi, Gigli, Giuseppe, Tasco, Vittorianna, and Esposito, Marco

Subjects
Physics - Optics, Condensed Matter - Materials Science
Abstract

Optical Bound States in the Continuum are peculiar localized states within the continuous spectrum that are unaffected by any far-field radiation and intrinsic absorption, therefore possessing infinite mode lifetime and Q-factor. To date they have been widely studied in dielectric structures whereas their exploitation in lossy media, i.e. plasmonic nanostructures, still remains a challenge. Here, we show the emergence of a hybrid BIC state in a 2D system of silver-filled dimers, quasi-embedded in a high-index dielectric waveguide. The hybrid BIC onset is found to be highly dependent on the bare modes' spectral and spatial overlap, but particularly on the plasmonic field's intensity. By tailoring the hybridizing plasmonic/photonic fractions we select an ideal coupling regime for which the mode exhibits both, high Q-factor values and strong near-field enhancement tightly confined in the nanogap and a consequently extremely small modal volume. We demonstrate that this optical layout can be exploited in a proof-of-concept experiment for the detection of TAR DNA-binding protein 43, which outperforms the sensitivity of current label-free biosensing platforms, reaching the zeptomolar range of concentration.

Published
2024

6. AlN interlayer-induced reduction of dislocation density in the AlGaN epilayer.

Author

Tobaldi, David Maria, Lajaunie, Luc, Cretιave;, Arianna, Cuscunà, Massimo, Tarantini, Iolena, Esposito, Marco, Balestra, Gianluca, Lomascolo, Mauro, Passaseo, Adriana, and Tasco, Vittorianna

Subjects
*DISLOCATION density, *MODULATION-doped field-effect transistors, *TWO-dimensional electron gas, *ELECTRON-hole recombination, *ELECTRON gas, *POWER semiconductors, *SEMICONDUCTOR devices
Abstract

The emerging ultrawide-bandgap AlGaN alloy system holds promise for the development of advanced materials in the next generation of power semiconductor and UV optoelectronic devices. Within this context, heterostructures based on III-nitrides are very popular in view of their applications as electronic and optoelectronic components. AlGaN-based deep UV emitters are gaining visibility due to their disinfection capabilities. Likewise, high electron mobility transistors are attracting increasing attention owing to their superior electron transport which yields high-speed and high-power applications. These devices are conventionally made of AlGaN/GaN heterostructures grown on foreign substrates. However, structural defects, including stress induced by a mismatch in unit cell parameters and the presence of dislocations, can not only decrease the efficiency of the light emitters (by facilitating the non-radiative recombination of electron–hole pairs), but also impede electron mobility within the two-dimensional electron gas at the AlGaN/GaN interface. Therefore, the significance of obtaining high-quality AlGaN layers becomes evident. Including a thin AlN interlayer between the GaN buffer layer and AlGaN is a possible answer to address these drawbacks. Not only do we show that a thin AlN layer, approximately ≤3 nm in thickness, between the GaN buffer and AlGaN layers, is effective in decreasing the dislocation densities in the AlGaN layer by around 30%, but also this is responsible for an increase in the electron mobility (approximately 33%) compared to a classical AlGaN/GaN heterostructure. Additionally, the resulting heterostructure exhibits better optical quality, with a 7-fold increase in intensity as well as a 20% reduction in full-width at half-maximum in the AlGaN emission. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Circularly Polarized Light Detection Through 3D Chiral Metasurface‐Based Phototransistors

Author

Rajamani, Saravanan, primary, Simeone, Daniela, additional, Pecora, Alessandro, additional, Manoccio, Mariachiara, additional, Balestra, Gianluca, additional, Bayramov, Ayaz H., additional, Mamedov, Nazim T., additional, Passaseo, Adriana, additional, Gigli, Giuseppe, additional, Tobaldi, David Maria, additional, Tasco, Vittorianna, additional, Esposito, Marco, additional, Cola, Adriano, additional, and Cuscunà, Massimo, additional

Published
2023
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11. Tuning mid-infrared polarization sensitive reflectivity in GaN/AlGaN heterostructures

Author

Bile Alessandro, Centini Marco, Ceneda Daniele, Passaseo Adriana, Tobaldi David Maria, Tasco Vittorianna, Sibilia Concita, and Larciprete Maria Cristina

Subjects
Physics, QC1-999
Abstract

We present narrow-band polarization-sensitive reflectance of GaN/AlGaN heterostructures in the mid-infrared range. Experimental measurements performed at 15° angle of incidence show the excitation of a Berreman mode at the interface between GaN and sapphire substrate. A transfer matrix method for anisotropic layers has been used to analyze the obtained results. The contribution of the two-dimensional electron gas at the interfaces of the heterostructures has been included by proper modelization of an effective thin layer.

Published
2023
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14. Direct Band Gap Chalcohalide Semiconductors: Quaternary AgBiSCl2 Nanocrystals

Author

Quarta, Danila, primary, Toso, Stefano, additional, Fieramosca, Antonio, additional, Dominici, Lorenzo, additional, Caliandro, Rocco, additional, Moliterni, Anna, additional, Tobaldi, David Maria, additional, Saleh, Gabriele, additional, Gushchina, Irina, additional, Brescia, Rosaria, additional, Prato, Mirko, additional, Infante, Ivan, additional, Cola, Adriano, additional, Giannini, Cinzia, additional, Manna, Liberato, additional, Gigli, Giuseppe, additional, and Giansante, Carlo, additional

Published
2023
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16. Circularly Polarized Light Detection Through 3D Chiral Metasurface‐Based Phototransistors.

Author

Rajamani, Saravanan, Simeone, Daniela, Pecora, Alessandro, Manoccio, Mariachiara, Balestra, Gianluca, Bayramov, Ayaz H., Mamedov, Nazim T., Passaseo, Adriana, Gigli, Giuseppe, Tobaldi, David Maria, Tasco, Vittorianna, Esposito, Marco, Cola, Adriano, and Cuscunà, Massimo

Subjects
PHOTOTRANSISTORS, ELECTRON beam deposition, MATERIALS science, CIRCULAR polarization, LIGHT filters, METAMATERIALS, ELECTRON beams
Abstract

Distinguishing between different handedness of circularly polarized light can be a useful additional property in photodetector technology. The integration of this functionality can be obtained either using optical media with chiro‐optical response, or by the employment of chiral metamaterials. In this work, 3D chiral metasurfaces composed by a 3D helix array, are integrated onto a micrometer‐scale silicon‐based transistor and act as optical filter for circularly polarized light. The technological process involving focused electron beam induced deposition for helix manufacturing is carefully studied with respect to its effect on the phototransistor response. The integrated system exhibits a photoresponse which is dependent on the circular polarization, with a promising asymmetry factor in the visible spectral range. The proposed technology can pave the way for novel potential applications in diverse areas such as materials science, bioimaging, and quantum computing. [ABSTRACT FROM AUTHOR]

Published
2024
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17. Two-Channel Indirect-Gap Photoluminescence and Competition between the Conduction Band Valleys in Few-Layer MoS 2.

Author

Bayramov, Ayaz H., Bagiyev, Elnur A., Alizade, Elvin H., Jalilli, Javid N., Mamedov, Nazim T., Jahangirli, Zakir A., Asadullayeva, Saida G., Aliyeva, Yegana N., Cuscunà, Massimo, Lorenzo, Daniela, Esposito, Marco, Balestra, Gianluca, Simeone, Daniela, Tobaldi, David Maria, Abou-Ras, Daniel, and Schorr, Susan

Subjects
CONDUCTION bands, PHOTOLUMINESCENCE, DIELECTRIC function, THIN films, OPTICAL properties
Abstract

MoS2 is a two-dimensional layered transition metal dichalcogenide with unique electronic and optical properties. The fabrication of ultrathin MoS2 is vitally important, since interlayer interactions in its ultrathin varieties will become thickness-dependent, providing thickness-governed tunability and diverse applications of those properties. Unlike with a number of studies that have reported detailed information on direct bandgap emission from MoS2 monolayers, reliable experimental evidence for thickness-induced evolution or transformation of the indirect bandgap remains scarce. Here, the sulfurization of MoO3 thin films with nominal thicknesses of 30 nm, 5 nm and 3 nm was performed. All sulfurized samples were examined at room temperature with spectroscopic ellipsometry and photoluminescence spectroscopy to obtain information about their dielectric function and edge emission spectra. This investigation unveiled an indirect-to-indirect crossover between the transitions, associated with two different Λ and K valleys of the MoS2 conduction band, by thinning its thickness down to a few layers. [ABSTRACT FROM AUTHOR]

Published
2024
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20. TiO2/WO3/graphene for photocatalytic H2 generation and benzene removal: widely employed still an ambiguous system

Author

Chakib, Alaoui, primary, Mohamed, Karmaoui, additional, Bekka, Ahmed, additional, Edelmannová, Miroslava Filip, additional, Jesus, Juan, additional, navas, javier, additional, Wassila, Touati, additional, Kadi allah, Imene, additional, Figueiredoe, Bruno, additional, Labrincha, Joao Antonio, additional, Koci, Kamila, additional, and Tobaldi, David Maria, additional

Published
2023
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23. Photocatalytic hydrogen generation from a methanol-water mixture in the presence of g-C3N4 and graphene/g-C3N4

Author

Ministère de l'Enseignement Supérieur et de la Recherche Scientifique (Algerie), Universidade de Aveiro, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), European Commission, Gobierno de Aragón, Diputación General de Aragón, Touati, Wassila, Karmaoui, Mohamed, Bekka, Ahmed, Edelmannová, Miroslava Filip, Furgeaud, Clarisse, Chakib, Alaoui, Allah, Imene kadi, Figueiredo, Bruno, Labrincha, J. A., Arenal, Raúl, Koci, Kamila, Tobaldi, David Maria, Ministère de l'Enseignement Supérieur et de la Recherche Scientifique (Algerie), Universidade de Aveiro, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), European Commission, Gobierno de Aragón, Diputación General de Aragón, Touati, Wassila, Karmaoui, Mohamed, Bekka, Ahmed, Edelmannová, Miroslava Filip, Furgeaud, Clarisse, Chakib, Alaoui, Allah, Imene kadi, Figueiredo, Bruno, Labrincha, J. A., Arenal, Raúl, Koci, Kamila, and Tobaldi, David Maria

Abstract

Graphitic carbon nitride (g-C3N4), possessing high thermal and chemical stability, non-toxicity, facile synthesis, and low band gap energy is a promising candidate for photocatalytic applications. In this study, bulk and exfoliated g-C3N4 were synthesised from different precursors (melamine and urea). Moreover, the surface of bulk g-C3N4 and exfoliated g-C3N4 was modified with graphene (0.5 wt% and 1 wt%) aiming to obtain a prolonged carrier lifetime. The effect of g-C3N4 synthesis from various precursors and the influence of graphene content on the photocatalytic activity during the degradation of a water–methanol mixture under UVC irradiation were examined, in comparison to commercial P25. Hydrogen, methane and carbon monoxide were the decomposition products; hydrogen was the main product of decomposition, whereas CH4 and CO resulting from the reduction of CO2 were generated in a significantly smaller amount. All the produced photocatalysts, whether pure or modified with graphene, exhibited higher activity than the commercial photocatalyst P25.

Published
2022

27. Photocatalytic degradation of methanol-water in presence of g-C3N4 and graphene/g-C3N4.

Author

TOUATI, Wassila, primary, Bekka, Ahmed, additional, Karmaoui, Mohamed, additional, Furgeaud, Clarisse, additional, Alaoui, Chakib, additional, Kadi allah, Imene, additional, Edelmannová, Miroslava Filip, additional, Figueiredo, Bruno, additional, Labrincha, João António, additional, Arenal, Raul, additional, Koci, Kamila, additional, and Tobaldi, David Maria, additional

Published
2022
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29. Photocatalytic hydrogen generation from a methanol–water mixture in the presence of g-C3N4 and graphene/g-C3N4

Author

Touati, Wassila, primary, Karmaoui, Mohamed, additional, Bekka, Ahmed, additional, Edelmannová, Miroslava Filip, additional, Furgeaud, Clarisse, additional, Chakib, Alaoui, additional, Allah, Imene kadi, additional, Figueiredo, Bruno, additional, Labrincha, J. A., additional, Arenal, Raul, additional, Koci, Kamila, additional, and Tobaldi, David Maria, additional

Published
2022
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32. Molybdenum precursor delivery approaches in atomic layer deposition of α-MoO3.

Author

Lorenzo, Daniela, Tobaldi, David Maria, Tasco, Vittorianna, Esposito, Marco, Passaseo, Adriana, and Cuscunà, Massimo

Subjects
*ATOMIC layer deposition, *THIN films, *UNITS of time
Abstract

In this research work, we present a study on time-sequenced plasma-enhanced atomic layer deposition (PE-ALD) processes towards the achievement of high-quality α-MoO3 thin films which are suitable for exfoliation. In particular, a conventional precursor injection method along with a boosted precursor delivery approach are discussed and analysed. In the latter, the proposed gas supply mechanism ensures a large number of deposited Mo atoms per unit of time, which, along with a proper thermal energy, leads to high-quality and oriented orthorhombic α-MoO3 films. The proposed boosted approach is also compared with post growth annealing steps, resulting in more effective achievement of a highly oriented orthorhombic α-MoO3 phase and less time consumption. [ABSTRACT FROM AUTHOR]

Published
2023
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33. Molybdenum precursor delivery approaches in atomic layer deposition of α-MoO3.

Author

Lorenzo, Daniela, Tobaldi, David Maria, Tasco, Vittorianna, Esposito, Marco, Passaseo, Adriana, and Cuscunà, Massimo

Subjects
ATOMIC layer deposition, THIN films, UNITS of time
Abstract

In this research work, we present a study on time-sequenced plasma-enhanced atomic layer deposition (PE-ALD) processes towards the achievement of high-quality α-MoO3 thin films which are suitable for exfoliation. In particular, a conventional precursor injection method along with a boosted precursor delivery approach are discussed and analysed. In the latter, the proposed gas supply mechanism ensures a large number of deposited Mo atoms per unit of time, which, along with a proper thermal energy, leads to high-quality and oriented orthorhombic α-MoO3 films. The proposed boosted approach is also compared with post growth annealing steps, resulting in more effective achievement of a highly oriented orthorhombic α-MoO3 phase and less time consumption. [ABSTRACT FROM AUTHOR]

Published
2023
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36. Photocatalytic hydrogen generation from a methanol–water mixture in the presence of g-C3N4 and graphene/g-C3N4.

Author

Touati, Wassila, Karmaoui, Mohamed, Bekka, Ahmed, Edelmannová, Miroslava Filip, Furgeaud, Clarisse, Chakib, Alaoui, Allah, Imene kadi, Figueiredo, Bruno, Labrincha, J. A., Arenal, Raul, Koci, Kamila, and Tobaldi, David Maria

Subjects
INTERSTITIAL hydrogen generation, BAND gaps, CHEMICAL stability, PHOTOCATALYSTS, CARBON monoxide
Abstract

Graphitic carbon nitride (g-C3N4), possessing high thermal and chemical stability, non-toxicity, facile synthesis, and low band gap energy is a promising candidate for photocatalytic applications. In this study, bulk and exfoliated g-C3N4 were synthesised from different precursors (melamine and urea). Moreover, the surface of bulk g-C3N4 and exfoliated g-C3N4 was modified with graphene (0.5 wt% and 1 wt%) aiming to obtain a prolonged carrier lifetime. The effect of g-C3N4 synthesis from various precursors and the influence of graphene content on the photocatalytic activity during the degradation of a water–methanol mixture under UVC irradiation were examined, in comparison to commercial P25. Hydrogen, methane and carbon monoxide were the decomposition products; hydrogen was the main product of decomposition, whereas CH4 and CO resulting from the reduction of CO2 were generated in a significantly smaller amount. All the produced photocatalysts, whether pure or modified with graphene, exhibited higher activity than the commercial photocatalyst P25. [ABSTRACT FROM AUTHOR]

Published
2022
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37. Photocatalytic Lime Render for Indoor and Outdoor Air Quality Improvement

Author

Ibáñez Gómez, José Antonio, primary, Giampiccolo, Andrea, additional, Tobaldi, David Maria, additional, Mair, Sabine, additional, da Silva, Carla Forbela, additional, Barrasa, Maria Casado, additional, Maskell, Daniel, additional, Ansell, Martin Philip, additional, Kurchania, Rajnish, additional, Mayer, Florian, additional, Labrincha, Joao Antonio, additional, de Miguel, Yolanda R., additional, and Ball, Richard James, additional

Published
2021
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43. Synergy of copper and graphene for visible-light promoted photochromism and photocatalysis in TiO2 nanoparticles

Author

Tobaldi, David Maria

Abstract

Multifunctional materials working under solely visible-light are expected to play a significant role in photo-electronics, in particular photo-switches, photo-optical sensors, smart windows, displays, optical storage memories, and self-cleaning materials. We have modified the surface of a versatile semiconductor material (TiO2) with a noble metal (copper) and high crystalline quality graphene. Exploiting the ability of a semiconductor to generate an exciton upon excitation, a multifunctional material working with visible-light and showing photochromic and photocatalytic activity was engineered. Photochromic and photocatalytic tests were assessed using a white light emitting diode (LED). Specimens modified with copper (1 mol%) and graphene (0.5 wt%) exhibited faster photochromism (3 times), and more stable photoswitching compared to standard Cu-TiO2 photochromic material. The same material also displayed visible-light induced photocatalytic activity in the gas-solid phase (degradation of benzene, one of the most hazardous pollutants found indoor) superior to unmodified titania (3.00 times higher). Copper acted as the chromophore (and visible-light absorber for the photocatalytic reaction). Furthermore, the electronic transport is enhanced in the graphene/TiO2 hybrids, increasing the lifetime of the photogenerated exciton. Our data highlights the unique characteristics of that material, and the suitability for multi-purpose applications in the field of environmental monitoring and remediation, and smart materials technologies.

Published
2019
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49. Photo-electrochemical properties of CuO–TiO2 heterojunctions for glucose sensing.

Author

Tobaldi, David Maria, Espro, Claudia, Leonardi, Salvatore Gianluca, Lajaunie, Luc, Seabra, Maria Paula, Calvino, José Juan, Marini, Silvia, Labrincha, João António, and Neri, Giovanni

Abstract

Electrochemical sensors for monitoring biochemical substances are attracting considerable attention. These devices are usually based on enzymes that are sensitive and very specific. Still, the activity of those enzymes is lost with changes in temperature or pH. Non-enzymatic electrochemical sensors – fabricated via the modification of the electrode surface with metal oxide nanoparticles – are an ideal answer to address that problem. In this study, we investigated the photo-electrochemical properties of CuO–TiO2 heterojunctions for glucose sensing in alkaline media. A combination of high-resolution (scanning) transmission electron microscopy, spatially resolved electron energy-loss spectroscopy, energy-dispersive X-ray spectroscopy and X-ray powder diffraction, was used to study in detail the microstructures of the prepared specimens. These results highlighted the strong intertwining between the TiO2 nanoparticles and the Cu-based nanoparticles, which present a metallic core with a CuO rich surface. In addition, we showed that CuO, joint to TiO2, has smaller size compared to pure CuO, which entails larger specific surface area available for the glucose electro-oxidation, which consequently enhanced the electrochemical features. The influence of Cu loading over the sensing performance of TiO2 was examined in detail carrying out electrochemical sensing tests under dark, laboratory and halogen lamp irradiation conditions. Results demonstrated that, under halogen lamp irradiation, modified CuO–TiO2 electrodes showed a specific response signal that is four times higher than that of pure CuO. Those increased photo-electrochemical properties in CuO–TiO2 heterojunctions are likely due to a synergistic effect between the microstructural characteristics and effective separation of photo-generated excitons created at the heterojunction interface. Results of this study offer applicable guidelines for designing photo-electrochemical screen-printed electrodes based on nano-sized CuO on titania for efficient detection of glucose. [ABSTRACT FROM AUTHOR]

Published
2020
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