Your search keyword '"Petrone, Alessio"' showing total 2 results

1. Conformational and environmental effects on the electronic and vibrational properties of dyes for solar cell devices.

Author

Buttarazzi, Edoardo, Inchingolo, Antonio, Pedron, Danilo, Alberto, Marta Erminia, Collini, Elisabetta, and Petrone, Alessio

Subjects

DYE-sensitized solar cells, WIDE gap semiconductors, POLAR effects (Chemistry), SOLAR energy conversion, PHOTOVOLTAIC power systems, MOLECULAR structure, ORGANIC dyes

Abstract

The main challenge for solar cell devices is harvesting photons beyond the visible by reaching the red-edge (650–780 nm). Dye-sensitized solar cell (DSSC) devices combine the optical absorption and the charge separation processes by the association of a sensitizer as a light-absorbing material (dye molecules, whose absorption can be tuned and designed) with a wide band gap nanostructured semiconductor. Conformational and environmental effects (i.e., solvent, pH) can drastically influence the photophysical properties of molecular dyes. This study proposes a combined experimental and computational approach for the comprehensive investigation of the electronic and vibrational properties of a unique class of organic dye compounds belonging to the family of red-absorbing dyes, known as squaraines. Our focus lies on elucidating the intricate interplay between the molecular structure, vibrational dynamics, and optical properties of squaraines using state-of-the-art density functional theory calculations and spectroscopic techniques. Through systematic vibrational and optical analyses, we show that (i) the main absorption peak in the visible range is influenced by the conformational and protonation equilibria, (ii) the solvent polarity tunes the position of the UV–vis absorption, and (iii) the vibrational spectroscopy techniques (infrared and Raman) can be used as informative tools to distinguish between different conformations and protonation states. This comprehensive understanding offers valuable insights into the design and optimization of squaraine-based DSSCs for enhanced solar energy conversion efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

2. Vibrational analysis of x-ray absorption fine structure thermal factors by ab initio molecular dynamics: The Zn(II) ion in aqueous solution as a case study.

Author

Rega, Nadia, Brancato, Giuseppe, Petrone, Alessio, Caruso, Pasquale, and Barone, Vincenzo

Subjects

VIBRATIONAL spectra, X-ray spectroscopy, MOLECULAR dynamics, TRANSITION metal ions, SOLUTION (Chemistry), CASE studies, BOUNDARY value problems, RADIAL basis functions

Abstract

In this work, we consider a new combination of vibrational analysis and normal-like mode decomposition of Debye-Waller factors of solvated ions entirely based on molecular dynamics data. Such a novel time-dependent analysis procedure provides a direct link between x-ray absorption fine structure parameters and normal mode contributions for an ion-solvent system. The potentialities of such a methodology rely on two fundamental aspects which distinguish it from already available tools. First, a general vibrational analysis that does not require any Gaussian or harmonic model for describing atomic fluctuations in liquids. Second, a very accurate sampling of the short range motions around the structural probe via the recently developed atom centered density matrix propagation/general liquid optimized boundary method. This novel molecular dynamics methodology is based on an integrated ab initio/classical potential using localized basis functions and nonperiodic boundary conditions. As a case study we have chosen the Zn(II) ion in aqueous solution. The consistency of our results and the observed good agreement with experiments show how the key support to advanced structural techniques from molecular dynamics can be further expanded and investigated. [ABSTRACT FROM AUTHOR]

Published

2011