Your search keyword '"Emanuele Coccia"' showing total 4 results

1. Time-Resolved Circular Dichroism in Molecules: Experimental and Theoretical Advances

Author

Marta Monti, Leonardo Biancorosso, and Emanuele Coccia

Subjects

molecular dynamics, electronic excited-state properties, enantiomers, Organic chemistry, QD241-441

Abstract

Following changes in chirality can give access to relevant information on the function or reactivity of molecular systems. Time-resolved circular dichroism (TRCD) spectroscopy proves to be a valid tool to achieve this goal. Depending on the class of molecules, different temporal ranges, spanning from seconds to femtoseconds, need to be investigated to observe such chiroptical changes. Therefore, over the years, several approaches have been adopted to cover the timescale of interest, especially based on pump–probe schemes. Moreover, various theoretical approaches have been proposed to simulate and explain TRCD spectra, including linear and non-linear response methods as well as non-adiabatic molecular dynamics. In this review, an overview on both experimental and theoretical advances in the TRCD field is provided, together with selected applications. A discussion on future theoretical developments for TRCD is also given.

Published

2024

2. Time Evolution of Plasmonic Features in Pentagonal Ag Clusters

Author

Nicola Domenis, Pablo Grobas Illobre, Margherita Marsili, Mauro Stener, Daniele Toffoli, and Emanuele Coccia

Subjects

time-dependent density functional theory, transition contribution map, induced density, Organic chemistry, QD241-441

Abstract

In the present work, we apply recently developed real-time descriptors to study the time evolution of plasmonic features of pentagonal Ag clusters. The method is based on the propagation of the time-dependent Schrödinger equation within a singly excited TDDFT ansatz. We use transition contribution maps (TCMs) and induced density to characterize the optical longitudinal and transverse response of such clusters, when interacting with pulses resonant with the low-energy (around 2–3 eV, A1) size-dependent or the high-energy (around 4 eV, E1) size-independent peak. TCMs plots on the analyzed clusters, Ag25+ and Ag43+ show off-diagonal peaks consistent with a plasmonic response when a longitudinal pulse resonant at A1 frequency is applied, and dominant diagonal spots, typical of a molecular transition, when a transverse E1 pulse is employed. Induced densities confirm this behavior, with a dipole-like charge distribution in the first case. The optical features show a time delay with respect to the evolution of the external pulse, consistent with those found in the literature for real-time TDDFT calculations on metal clusters.

Published

2023

3. Plasmonic Circular Dichroism in Chiral Gold Nanowire Dimers

Author

Daniele Toffoli, Marco Medves, Giovanna Fronzoni, Emanuele Coccia, Mauro Stener, Luca Sementa, and Alessandro Fortunelli

Subjects

plasmon, circular dichroism, nanoplasmonics, metal clusters, Organic chemistry, QD241-441

Abstract

We report a computational study at the time-dependent density functional theory (TDDFT) level of the chiro-optical spectra of chiral gold nanowires coupled in dimers. Our goal is to explore whether it is possible to overcome destructive interference in single nanowires that damp chiral response in these systems and to achieve intense plasmonic circular dichroism (CD) through a coupling between the nanostructures. We predict a huge enhancement of circular dichroism at the plasmon resonance when two chiral nanowires are intimately coupled in an achiral relative arrangement. Such an effect is even more pronounced when two chiral nanowires are coupled in a chiral relative arrangement. Individual component maps of rotator strength, partial contributions according to the magnetic dipole component, and induced densities allow us to fully rationalize these findings, thus opening the way to the field of plasmonic CD and its rational design.

Published

2021

4. Prenatal Clinical Findings in RASA1-Related Capillary Malformation-Arteriovenous Malformation Syndrome

Author

Emanuele Coccia, Lara Valeri, Roberta Zuntini, Stefano Giuseppe Caraffi, Francesca Peluso, Luca Pagliai, Antonietta Vezzani, Zaira Pietrangiolillo, Francesco Leo, Nives Melli, Valentina Fiorini, Andrea Greco, Francesca Romana Lepri, Elisa Pisaneschi, Annabella Marozza, Diana Carli, Alessandro Mussa, Francesca Clementina Radio, Beatrice Conti, Maria Iascone, Giancarlo Gargano, Antonio Novelli, Marco Tartaglia, Orsetta Zuffardi, Maria Francesca Bedeschi, and Livia Garavelli

Subjects

non-immune fetal hydrops, chylothorax, RASA1, polyhydramnios, Genetics, capillary malformation-arteriovenous malformation (CM-AVM), prenatal findings, Genetics (clinical)

Abstract

Pathogenic variants in RASA1 are typically associated with a clinical condition called “capillary malformation-arteriovenous malformation” (CM-AVM) syndrome, an autosomal dominant genetic disease characterized by a broad phenotypic variability, even within families. In CM-AVM syndrome, multifocal capillary and arteriovenous malformations are mainly localized in the central nervous system, spine and skin. Although CM-AVM syndrome has been widely described in the literature, only 21 cases with prenatal onset of clinical features have been reported thus far. Here, we report four pediatric cases of molecularly confirmed CM-AVM syndrome which manifested during the prenatal period. Polyhydramnios, non-immune hydrops fetalis and chylothorax are only a few possible aspects of this condition, but a correct interpretation of these prenatal signs is essential due to the possible fatal consequences of unrecognized encephalic and thoracoabdominal deep vascular malformations in newborns and in family members carrying the same RASA1 variant.

Published

2023