Daniele Duce scite author profile

Recently new molecular systems based on the pyrene moiety were developed for photovoltaic applications. Here we present the results of a quantum chemical study focused on the effects induced by some different substituents on the electronic properties of pyrene, to obtain general hints for the molecular design of new pyrene-based systems. In particular, a series of electron-donating (hydroxy, amino, acetylamino) and electron-withdrawing (cyano, carbamoyl, formyl, ethynyl, ethenyl) groups were considered. Furthermore, in addition to the single pyrene molecule, two pyrene units linked by ethenylene, ethynylene, 2,5-thienylene, and ethynylene-p-phenylene containing chains of different lengths were taken into account. For all of the model structures presented, the ground state geometries have been optimized using the density functional approach, while the vertical transition energies were calculated using the time-dependent density functional theory. We will show that the tuning of the lowest electronic excitation energy (i.e., the HOMO-LUMO energy gap) as well as the localization of the spatial distributions of the frontier molecular orbitals (i.e., the nature of the electron-hole pair, generated by photon absorption) can be obtained through the analysis of the pyrene frontier molecular orbitals. This approach allows to evaluate the most suitable position of the substituents on the pyrene moiety giving rise to enhanced electronic effects also in function of their electronic nature. In this way, pyrene-structures with tailored electronic properties could be modeled. Our screening shows that promising candidates for photovoltaic applications could be molecular structures formed by two pyrene units joined/linked by a short conjugated bridge containing double or triple bonds (henceforth pyrene-linked dimers). As far as the single pyrene units are considered, the most significant reduction of the transition energy of the lowest optical electronic excitation is obtained with disubstituted pyrenes with push-pull character.

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Koopmans’ Transfer Integral Calculation: A Comparison between the Hartree-Fock and the Density Functional Results

Ottonelli

Piccardo

Duce

et al. 2012

Energy Procedia

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The Influence of the Vinyl Terminal Group on the Poly(Para-Phenylenevinylene) Charge Transfer Integrals

Ottonelli¹,

Duce²,

Thea³

et al. 2013

j. nanosci. nanotech.

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The charge transport properties of organic semiconductors are one of the foremost limiting factors in technological applications of these materials, which are becoming important competitors with respect to the inorganic semiconductors. In fact, conjugated organic molecules are used at present as active materials in different types of devices. For this reason, the theoretical study of the electron and hole mobility, carried out in order to give hints for the design of new molecules or for the optimization of their supramolecular organization, is a task of great interest. Here, we present the results of a quantum chemical study, in the framework of the Marcus and density functional theories, on the effects of terminal groups (when they directly interact with the pi-conjugated system of the organic semiconductors) on the charge carriers mobility of organic semiconductors. In particular, using a representative oligomer of poly(para-phenylenevinylene) as a model system, we have found that strong effects on the predicted values of the intramolecular transfer integrals as well as on their dependence on the supramolecular organizations occur, when the vinyl moiety (as ending group) is taken into account.

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A TD-DFT Study of the Spectroscopic Properties of Hollow Silver Cluster

Duce

Ottonelli

Alloisio

et al. 2012

e-J. Surf. Sci. Nanotechnol.

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Noble metal clusters have attracted the interest of the scientific community for their particular electronic and optical properties, which are remarkably size-dependent. In fact, these systems have great potentials for technological applications such as in the development of optical devices or for medical applications, in diagnostic and therapeutic fields. As an example, in the latter case the metal nanoparticles need to be tailored in order to have strong absorption in the near infrared (NIR), since biological tissues are transparent in this spectral region. For these reasons, great efforts have been invested in developing synthetic methods to control the parameters that dictate the nanostructure applicability like shape, stability, composition and size.In this framework, the theoretical modeling can be applied for correlating the electronic and structural properties with the size and composition of these systems, in order to achieve information about the design and the tuning of the optical absorptions of the noble metal clusters. Recently, improvements in the descriptions of the relationships between structure and electronic properties were achieved for nanorod and spherical Ag clusters, using the density functional theory. Here, we extend these results to hollow nanorods and nanocages, i.e. non classic structures, demostrating that our model can predict satisfactory the formation of low-energy transitions, experimentally observed in the NIR region.

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Daniele Duce

Tuning the Photophysical Properties of Pyrene-Based Systems: A Theoretical Study

Koopmans’ Transfer Integral Calculation: A Comparison between the Hartree-Fock and the Density Functional Results

The Influence of the Vinyl Terminal Group on the Poly(Para-Phenylenevinylene) Charge Transfer Integrals

A TD-DFT Study of the Spectroscopic Properties of Hollow Silver Cluster

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