Your search keyword '"Amine, Nour Hanne"' showing total 7 results

1. Creation, Control, and Modeling of NV Centers in Nanodiamonds

Author

Aprà, Pietro, Amine, Nour Hanne, Britel, Adam, Sturari, Sofia, Varzi, Veronica, Ziino, Matteo, Mino, Lorenzo, Olivero, Paolo, and Picollo, Federico

Subjects

Physics - Atomic Physics, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Sensing based on Nitrogen-Vacancy (NV) centers in nanodiamonds (NDs) offers significant potential across various applications. However, optimizing their quantum-optical properties remains challenging. This study focuses on enhancing and controlling the optical properties of NV centers in NDs through surface chemistry tuning and proton beam irradiation. Systematic thermal oxidations were performed to investigate the evolution of surface chemical groups using IR spectroscopy and their influence on optical properties using photoluminescence spectroscopy and PL decay measurements. Proton irradiation was explored over a wide range of fluences (10^14 to 10^17 cm^-2) to precisely control the NV center concentration, identifying conditions that maximize creation and emission intensity. Furthermore, NV center charge state control was achieved by analyzing the NV-/NV0 ratio with varying surface terminations and NV center concentrations. A novel predictive mathematical model was developed to evaluate the efficiencies of forming NV- and NV0. Although tested specifically with proton-irradiated NDs, this model has broad applicability, representing a significant advancement in predicting the outcomes of ion-beam-based color center generation in diamond.

Published

2024

2. 3D Printing in Microfluidics: Experimental Optimization of Droplet Size and Generation Time through Flow Focusing, Phase, and Geometry Variation

Author

Britel, Adam, Tomagra, Giulia, Aprà, Pietro, Varzi, Veronica, Sturari, Sofia, Amine, Nour-hanne, Olivero, Paolo, and Picollo, Federico

Subjects

Physics - Fluid Dynamics, Physics - Chemical Physics

Abstract

Droplet-based microfluidics systems have become widely used in recent years thanks to their advantages, varying from the possibility of handling small fluid volumes to directly synthesizing and encapsulating various living forms for biological-related applications. The effectiveness of such systems mainly depends on the ability to control some of these system's parameters, such as produced droplet size and formation time, which represents a challenging task. This work reports an experimental study on tuning droplet size and generation time in a flow-focusing geometry fabricated with stereolithography 3D printing by exploring the interplay of phase and geometrical parameters. We produced droplets at different low flow rates of continuous and dispersed phases to assess the effect of each of these phases on the droplets' size and formation time. We observed that smaller droplets were produced for high viscosity oil and water phase, along with high flow rates. In addition, changing the microfluidics channels' width, and morphology of the orifice has shown a similar effect on droplet size, as shown in the case of high-viscosity solutions. The variation of the bifurcation angle shows a noticeable variation in terms of the achieved droplet size and formation time. We further investigated the impact of modifying the width ratio of the continuous and dispersed phases on droplet formation

Published

2024

3. A comprehensive study of the effect of thermally induced surface terminations on nanodiamonds electrical properties

Author

Sturari, Sofia, Varzi, Veronica, Aprà, Pietro, Britel, Adam, Amine, Nour-Hanne, Andrini, Greta, Corte, Emilio, Tomagra, Giulia, Mino, Lorenzo, Olivero, Paolo, and Picollo, Federico

Subjects

Physics - Chemical Physics

Abstract

Nanodiamonds (NDs) gained increasing attention in multiple research areas due to the possibility of tuning their physical and chemical features by functionalizing their surface. This has a crucial impact on their electrical properties, which are essential in applications such as the development of innovative sensors and in the biomedical field. The great interest in electrical conduction in NDs has driven the scientific community to its extensive investigation. The role of various functionalities has been considered and different conduction mechanisms have been proposed. In this work, we reported on a systematic study of the modification of the electrical properties of differently sized NDs, as a function of different thermal treatments in air, hydrogen or inert atmosphere. Samples were electrically characterized in controlled humidity conditions to consider the influence of water on conductivity. NDs electrical properties were interpreted in connection with their surface chemistry and structural features, probed with infrared and Raman spectroscopies. The presence of surface graphite, hydrogen terminations or water adsorbed on hydrophilic oxygen-containing functional groups rendered NDs more conductive. These moieties indeed enabled different conduction mechanisms, which were respectively graphite-mediated conduction, water-induced transfer doping and Grotthus mechanism in surface-adsorbed water. The effect of particles size on conductivity has also been evaluated and discussed. Our experimental findings shed light on the link between surface modifications and electrical properties of NDs, providing at the same time an interpretative key to understanding the effect of particles dimensions.

Published

2023

4. Enhancing the Study of Quantal Exocytotic Events: Combining Diamond Multi-Electrode Arrays with Amperometric PEak Analysis (APE) an Automated Analysis Code

Author

Tomagra, Giulia, Re, Alice, Varzi, Veronica, Aprà, Pietro, Britel, Adam, Franchino, Claudio, Sturari, Sofia, Amine, Nour-Hanne, Westerink, Remco H. S., Carabelli, Valentina, and Picollo, Federico

Subjects

Physics - Biological Physics

Abstract

MicroGraphited-Diamond-Multi Electrode Arrays ({\mu}G-D-MEAs) can be successfully used to reveal, in real time, quantal exocytotic events occurring from many individual neurosecretory cells and/or from many neurons within a network. As {\mu}G-D-MEAs arrays are patterned with up to 16 sensing microelectrodes, each of them recording large amounts of data revealing the exocytotic activity, the aim of this work was to support an adequate analysis code to speed up the signal detection. The cutting-edge technology of microGraphited-Diamond-Multi Electrode Arrays ({\mu}G-D-MEAs) has been implemented with an automated analysis code (APE, Amperometric Peak Analysis) developed using Matlab R2022a software to provide easy and accurate detection of amperometric spike parameters, including the analysis of the pre-spike foot that sometimes precedes the complete fusion pore dilatation. Data have been acquired from cultured PC12 cells, either collecting events during spontaneous exocytosis or after L-DOPA incubation. Validation of the APE code was performed by comparing the acquired spike parameters with those obtained using Quanta Analysis (Igor macro) by Mosharov et al.

Published

2023

5. 3D printing in microfluidics: experimental optimization of droplet size and generation time through flow focusing, phase, and geometry variation

Author

Britel, Adam, primary, Tomagra, Giulia, additional, Aprà, Pietro, additional, Varzi, Veronica, additional, Sturari, Sofia, additional, Amine, Nour-Hanne, additional, Olivero, Paolo, additional, and Picollo, Federico, additional

Published

2024

6. Enhancing the Study of Quantal Exocytotic Events: Combining Diamond Multi-Electrode Arrays with Amperometric PEak Analysis (APE) an Automated Analysis Code

Author

Tomagra, Giulia, primary, Re, Alice, additional, Varzi, Veronica, additional, Aprà, Pietro, additional, Britel, Adam, additional, Franchino, Claudio, additional, Sturari, Sofia, additional, Amine, Nour-Hanne, additional, Westerink, Remco H. S., additional, Carabelli, Valentina, additional, and Picollo, Federico, additional

Published

2023

7. A comprehensive study of the effect of thermally induced surface terminations on nanodiamonds electrical properties

Author

Sturari, Sofia, primary, Varzi, Veronica, additional, Aprà, Pietro, additional, Britel, Adam, additional, Amine, Nour-Hanne, additional, Andrini, Greta, additional, Corte, Emilio, additional, Tomagra, Giulia, additional, Mino, Lorenzo, additional, Olivero, Paolo, additional, and Picollo, Federico, additional

Published

2023