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1. Phosphorescence by trapping defects in boric acid induced by thermal processing

Author

Stagi, Luigi, Malfatti, Luca, Zollo, Alessia, Livraghi, Stefano, Carboni, Davide, Chiriu, Daniele, Corpino, Riccardo, Ricci, Pier Carlo, Cappai, Antonio, Carbonaro, Carlo Maria, Enzo, Stefano, Khaleel, Abbas, Adamson, Abdulmuizz, Gervais, Christel, Falqui, Andrea, and Innocenzi, Plinio

Subjects
Condensed Matter - Materials Science
Abstract

The phosphorescence of boric acid at room temperature is a puzzling phenomenon subject to controversial interpretations although the role of structural defects has not yet been considered. Heat treatments of boric acid cause its transformation into the metaboric phase and amorphous boron oxide. The structural changes after thermal processing can create defects that become centers of luminescence and recombination channels in the visible range. In the present work, we have thermally processed commercial boric acid at different temperatures. Samples treated between 200 and 400{\deg}C exhibit remarkable phosphorescence in the visible range. At around 480 and 528 nm, two distinct phosphorescent emissions occur, associated with trapped charge carriers recombinations identified by thermoluminescence and electron paramagnetic resonance spectroscopy. Our structural and optical studies suggest that the activation of boric acid phosphorescence after heat treatment is correlated with the presence of defects. The afterglow results from a trapping and detrapping process, which delays the recombination at the active optical centers. Time-dependent density functional study of defective BOH molecules and clusters shows the emergence of near UV and blue optical transitions in absorption. These defects trigger the photoluminescence in thermally processed boric acid samples.

Published
2023

2. List of contributors

Author

Abd Manan, Fariza Aina, primary, Ahmadi, Nahid, additional, Alias, Basil K., additional, Anagnostou, Phoebe, additional, Appukuttan, Saritha, additional, Asok, Aparna, additional, Banerji, Pallab, additional, Budimir, Milica D., additional, Cappai, Antonio, additional, Carbonaro, Carlo Maria, additional, Casula, Maria, Francesca, additional, Chatzimitakos, Theodoros, additional, Constantinou, Ioanna, additional, Dakidi, Kalliroi, additional, Das, Narayan Chandra, additional, Devika, V., additional, Engelbrecht, Leon, additional, Gao, Tian, additional, George, Gejo, additional, Ghosh, Trisita, additional, Ha, Tae-Jun, additional, Hedau, Bhavna, additional, Islam, Nazrul, additional, Jacob, Geevargheese V., additional, Jayan, Jitha S., additional, Joseph, Kuruvilla, additional, Kurian, Manju, additional, Laaksonen, Aatto, additional, Lekshmi, A.G., additional, Liu, Yi, additional, Madhavikutti, Athira Sreedevi, additional, Mallia, Ajith R., additional, Mat Zaid, Mohd Hazani, additional, Mathew, Meegle S., additional, Melis, Claudio, additional, Mocci, Francesca, additional, Mohd Bakhori, Noremylia, additional, Mohd Razip Wee, Mohd Farhanulhakim, additional, Olla, Chiara, additional, Park, Sang-Joon, additional, Paul, Anju, additional, Prekodravac, Jovana R., additional, Prior, João A.V., additional, Qiang, Yuwen, additional, Rajan, Ramya, additional, Raman, Akhila, additional, Ramazani, Ali, additional, Sadanandan, Sandhya, additional, Segundo, Marcela A., additional, Selcuk, Ozge, additional, Silah, Hulya, additional, Skolariki, Thomais, additional, Somasundrum, Mithran, additional, Sousa, Helena B.A., additional, Sreelekshmi, P.J., additional, Sreeramareddygari, Muralikrishna, additional, Stagi, Luigi, additional, Stalikas, Constantine D., additional, Subramaniam, Mohana Priya, additional, Surareungchai, Werasak, additional, Sureshkumar, Kempahanumakkagari, additional, Thippeswamy, Ramakrishnappa, additional, Thomas, Noel, additional, Thomas, Sabu, additional, Tolia, Eleftheria, additional, Unal, Didem Nur, additional, Uslu, Bengi, additional, and Wilson, Runcy, additional

Published
2024
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6. Visible Light Activation of Virucidal Surfaces Empowered by Pro‐Oxidant Carbon Dots

Author

Malfatti, Luca, primary, Poddighe, Matteo, additional, Stagi, Luigi, additional, Carboni, Davide, additional, Anedda, Roberto, additional, Casula, Maria Francesca, additional, Poddesu, Barbara, additional, De Forni, Davide, additional, Lori, Franco, additional, Livraghi, Stefano, additional, Zollo, Alessia, additional, Calvillo, Laura, additional, and Innocenzi, Plinio, additional

Published
2024
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13. Carbon Dots for Hydrogen Production. How Do They Work?

Author

Stagi, Luigi

Subjects
*OXYGEN evolution reactions, *HYDROGEN evolution reactions, *HYDROGEN production, *PHOTOCATALYSTS, *OPTICAL properties
Abstract

Carbon Dots (CDs) have gained significant attention for their fascinating optical properties, potential applications, and puzzling structural challenges. In the last decade, CDs have become the focal point in many photocatalysis studies, either as independent systems or combined with other established photocatalysts. CDs play a crucial role in enhancing the performance of heterostructures for overall water splitting, hydrogen (HER), and oxygen evolution reaction (OER). In these “Concepts,” we briefly explore the structure of CDs, highlighting their critical aspects, including their role within heterostructures, composition, the presence of fluorophores, and the interaction between the graphitic core and surface functional groups. We will also examine how these factors impact their photocatalytic properties, particularly in the context of future research on H₂ production. [ABSTRACT FROM AUTHOR]

Published
2024
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16. In Vitro Antiviral Activity of Hyperbranched Poly-L-Lysine Modified by L-Arginine against Different SARS-CoV-2 Variants

Author

Fiori, Federico, primary, Cossu, Franca Lucia, additional, Salis, Federica, additional, Carboni, Davide, additional, Stagi, Luigi, additional, De Forni, Davide, additional, Poddesu, Barbara, additional, Malfatti, Luca, additional, Khalel, Abbas, additional, Salis, Andrea, additional, Casula, Maria Francesca, additional, Anedda, Roberto, additional, Lori, Franco, additional, and Innocenzi, Plinio, additional

Published
2023
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17. Phosphorescence by Trapping Defects in Boric Acid Induced by Thermal Processing.

Author

Stagi, Luigi, Malfatti, Luca, Zollo, Alessia, Livraghi, Stefano, Carboni, Davide, Chiriu, Daniele, Corpino, Riccardo, Ricci, Pier Carlo, Cappai, Antonio, Carbonaro, Carlo Maria, Enzo, Stefano, Khaleel, Abbas, Adamson, Abdulmuizz, Gervais, Christel, Falqui, Andrea, and Innocenzi, Plinio

Subjects
*BORIC acid, *PHOSPHORESCENCE, *ELECTRON paramagnetic resonance spectroscopy, *LIGHT absorption
Abstract

The phosphorescence of boric acid (BA, H3BO3) at room temperature is a puzzling phenomenon subject to controversial interpretations although the role of structural defects has not yet been considered. Heat treatments of boric acid cause its transformation into the metaboric phase and amorphous boron oxide (B2O3). The structural changes after thermal processing can create defects that become centers of luminescence and recombination channels in the visible range. In the present work, commercial boric acid is thermally processed at different temperatures. Samples treated between 200 and 400 °C exhibit remarkable phosphorescence in the visible range. At ≈480 and 528 nm, two distinct phosphorescent emissions occur, associated with trapped charge carriers recombinations identified by thermoluminescence (TL) and electron paramagnetic resonance spectroscopy (EPR). The structural and optical studies suggest that the activation of boric acid phosphorescence after heat treatment is correlated with the presence of defects. The afterglow results from a trapping and detrapping process, which delays the recombination at the active optical centers. Time‐dependent density functional study (DFT) of defective BOH molecules and clusters shows the emergence of near UV and blue optical transitions in absorption. These defects trigger the photoluminescence in thermally processed boric acid samples. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Phosphorescence by Trapping Defects in Boric Acid Induced by Thermal Processing

Author

Stagi, Luigi, primary, Malfatti, Luca, additional, Zollo, Alessia, additional, Livraghi, Stefano, additional, Carboni, Davide, additional, Chiriu, Daniele, additional, Corpino, Riccardo, additional, Ricci, Pier Carlo, additional, Cappai, Antonio, additional, Carbonaro, Carlo Maria, additional, Enzo, Stefano, additional, Khaleel, Abbas, additional, Adamson, Abdulmuizz, additional, Gervais, Christel, additional, Falqui, Andrea, additional, and Innocenzi, Plinio, additional

Published
2023
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29. Carbon Nanodots from an In Silico Perspective

Author

Mocci, Francesca, primary, de Villiers Engelbrecht, Leon, additional, Olla, Chiara, additional, Cappai, Antonio, additional, Casula, Maria Francesca, additional, Melis, Claudio, additional, Stagi, Luigi, additional, Laaksonen, Aatto, additional, and Carbonaro, Carlo Maria, additional

Published
2022
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32. Carbon Nanodots from an In Silico Perspective

Author

Mocci, Francesca, Engelbrecht, Leon de Villiers, Olla, Chiara, Cappai, Antonio, Casula, Maria Francesca, Melis, Claudio, Stagi, Luigi, Laaksonen, Aatto, Carbonaro, Carlo Maria, Mocci, Francesca, Engelbrecht, Leon de Villiers, Olla, Chiara, Cappai, Antonio, Casula, Maria Francesca, Melis, Claudio, Stagi, Luigi, Laaksonen, Aatto, and Carbonaro, Carlo Maria

Abstract

Carbon nanodots (CNDs) are the latest and most shining rising stars among photoluminescent (PL) nanomaterials. These carbon-based surface-passivated nanostructures compete with other related PL materials, including traditional semiconductor quantum dots and organic dyes, with a long list of benefits and emerging applications. Advantages of CNDs include tunable inherent optical properties and high photostability, rich possibilities for surface functionalization and doping, dispersibility, low toxicity, and viable synthesis (top-down and bottom-up) from organic materials. CNDs can be applied to biomedicine including imaging and sensing, drug-delivery, photodynamic therapy, photocatalysis but also to energy harvesting in solar cells and as LEDs. More applications are reported continuously, making this already a research field of its own. Understanding of the properties of CNDs requires one to go to the levels of electrons, atoms, molecules, and nanostructures at different scales using modern molecular modeling and to correlate it tightly with experiments. This review highlights different in silico techniques and studies, from quantum chemistry to the mesoscale, with particular reference to carbon nanodots, carbonaceous nanoparticles whose structural and photophysical properties are not fully elucidated. The role of experimental investigation is also presented. Hereby, we hope to encourage the reader to investigate CNDs and to apply virtual chemistry to obtain further insights needed to customize these amazing systems for novel prospective applications.

Published
2022
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33. Bidimensional SnSe 2 —Mesoporous Ordered Titania Heterostructures for Photocatalytically Activated Anti-Fingerprint Optically Transparent Layers.

Author

De Santis, Jessica, Paolucci, Valentina, Stagi, Luigi, Carboni, Davide, Malfatti, Luca, Cantalini, Carlo, and Innocenzi, Plinio

Subjects
LIQUID films, HETEROSTRUCTURES, THIN films, INFRARED imaging, RHODAMINE B
Abstract

The design of functional coatings for touchscreens and haptic interfaces is of paramount importance for smartphones, tablets, and computers. Among the functional properties, the ability to suppress or eliminate fingerprints from specific surfaces is one of the most critical. We produced photoactivated anti-fingerprint coatings by embedding 2D-SnSe2 nanoflakes in ordered mesoporous titania thin films. The SnSe2 nanostructures were produced by solvent-assisted sonication employing 1-Methyl-2-pyrrolidinone. The combination of SnSe2 and nanocrystalline anatase titania enables the formation of photoactivated heterostructures with an enhanced ability to remove fingerprints from their surface. These results were achieved through careful design of the heterostructure and controlled processing of the films by liquid phase deposition. The self-assembly process is unaffected by the addition of SnSe2, and the titania mesoporous films keep their three-dimensional pore organization. The coating layers show high optical transparency and a homogeneous distribution of SnSe2 within the matrix. An evaluation of photocatalytic activity was performed by observing the degradation of stearic acid and Rhodamine B layers deposited on the photoactive films as a function of radiation exposure time. FTIR and UV-Vis spectroscopies were used for the photodegradation tests. Additionally, infrared imaging was employed to assess the anti-fingerprinting property. The photodegradation process, following pseudo-first-order kinetics, shows a tremendous improvement over bare mesoporous titania films. Furthermore, exposure of the films to sunlight and UV light completely removes the fingerprints, opening the route to several self-cleaning applications. [ABSTRACT FROM AUTHOR]

Published
2023
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45. Stable CsPbBr 3 Nanocrystals—Decorated Nanoporous Gold for Optoelectronic Applications.

Author

Satta, Jessica, Pinna, Andrea, Pia, Giorgio, Pilia, Luca, Carbonaro, Carlo Maria, Chiriu, Daniele, Stagi, Luigi, Abdullah, Qader Abdulqader, and Ricci, Pier Carlo

Subjects
NANOCRYSTALS, NANOPOROUS materials, GOLD nanoparticles, HYBRID systems, STRUCTURAL stability, ENERGY transfer, OPTICAL properties
Abstract

Halide perovskite colloidal nanocrystals have recently gained much attention thanks to their superior stability compared with their bulk counterpart and to their unique optical properties. In this paper, two systems combining nanocrystals and nanoporous gold are studied to create an optimal metal semiconductor heterojunction that can be used in photocatalysis and photovoltaic devices. The perovskite degradation phenomenon is observed when the nanoporous gold powder is mixed into the hexane suspension of nanocrystals, while the charge separation efficiency is increased by synthesizing the nanocrystals directly onto the gold porous structure. The analysis of the structural and optical properties evidences an energy transfer efficiency of 47%, along with the high structural stability of the hybrid system. [ABSTRACT FROM AUTHOR]

Published
2022
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