In this work, using the density functional theory (DFT) and time-dependent DFT (TD-DFT), we have theoretically studied the electronic structures, quantum reactivity parameters and absorption spectra of the several dyes based on Zn-porphyrin derivatives in the gas phases, methanol (MeOH) and tert-buthanol (t-BuOH). Also, open-circuit photovoltage (V OC), exciton binding energy (EBE), light harvesting efficiency (LHE), the free energy change of regeneration (∆G regen. (d y e)), and the free energy change of electron injection (∆G inject) have been investigated. The studied dyes in the presence of the solvents showed a smaller gap of the highest occupied molecular orbital (HOMO)the lowest unoccupied molecular orbital (LUMO) and lower EBE, a higher intensity and oscillator strength and red shift in the absorption spectra. These changes facilitate the charge transfer (CT) phenomena in the nano-structures of the dyes and improve the solar cell efficiency. Chemical modifications of the dyes by electron donor groups or conjugated system extension, improve the incident photon to current conversion efficiency (IPCE), the energy gap between the LUMO of the dye and the conduction band (CB) of the TiO 2 (eV OC), and the LHE of these dye-sensitized solar cells (DSSCs). Finally, some correlations between the molecular descriptors and solar cell parameters were analyzed.
In
this research, photovoltaic properties of the indoloquinoxaline-based
dyes QX22–QX25 as the (D)2-A−π–A
structure were investigated dynamically and kinetically. In these
structures, two acceptors cyanoacrylic acid and 2-(1,1-dicyanomethylene)rhodanine,
CCRD, and two π-spacers furan and thiophene have been used.
Density functional theory (DFT), time-dependent DFT (TD-DFT), and
natural bond orbital (NBO) were used to evaluate the electronic structures
and excited state properties of these metal-free organic dyes. The
analysis of the dynamics/kinetics of the photovoltaic parameters of
the corresponding dye-sensitized solar cells (DSSCs) shows that each
moiety of the D−π–A system has a more specific
effect on one of the photovoltaic properties. On the basis of the
obtained results, linear correlations of the incident photon to current
conversion efficiency (IPCE) to the k
inj/ΔG
inj are stronger than that of
light harvesting efficiency (LHE). Moreover, a red shift in the absorption
spectra and a higher LHE in the DCRD-based dyes are observed. Although
thiophene-based dyes showed an improved exciton dissociation rate, R
d, QX22 and QX23 are the preferred candidates
to be applied in solar cells due to their optimized quantum chemistry
properties and maximum IPCE.
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