Single- and co-sensitization of triphenylamine-based and asymmetrical squaraine dyes on the anatase (001) surface for DSSC applications: Periodic DFT calculations

Dye aggregation causes poor performance of dye-sensitized solar cell (DSSC) applications through faster charge recombination of the photosensitizer with electrolyte. Triphenylamine (TBA)-based dyes feature a higher molar absorption coefficient and broadened wavelength but cannot absorb sunlight in t...

Full description

Saved in:
Bibliographic Details
Published in:Journal of molecular graphics & modelling 2021-05, Vol.104, p.107833-107833, Article 107833
Main Authors: Al-Qurashi, Ohoud S., Jedidi, Abdesslem, Wazzan, Nuha
Format: Article
Language:English
Subjects:
Aggregation
Asymmetrical squaraine (SQ) dye
Co-adsorption
DFT
Dye-synthesized solar cell (DSSC)
Triphenylamine (TPA) dye
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Dye aggregation causes poor performance of dye-sensitized solar cell (DSSC) applications through faster charge recombination of the photosensitizer with electrolyte. Triphenylamine (TBA)-based dyes feature a higher molar absorption coefficient and broadened wavelength but cannot absorb sunlight in the near-infrared (NIR) region. In contrast, the squaraine (SQ) photosensitizer, which is also called an NIR photosensitizer, has a maximum wavelength in the NIR region with high intensity. However, SQ dye suffers from dye aggregation due to its planar structure. The use of a co-sensitizer is one well-tested way to increase the power conversion efficiency (η) of solar cells by reducing dye aggregation and charge recombination. Using density functional theory (DFT) and time-dependent DFT (TDDFT), this work explains from a theoretical perspective the higher η values of the TZC1 and TZC2 dyes compared to that of asymmetric the SQ sensitizer (YR6) as free dyes. The electronic properties, reorganization energies, absorption and emission spectra, ICT parameters, and photovoltage parameters of the TZC1, TZC2, and YR6 dyes were computed using the M06/6-31G(d,p) level of theory in the gas phase and CH2Cl2 solvent (CPCM method). Additionally, the mono- and co-adsorption processes of TZC-based sensitizers with YR6 on the anatase (001) surface were investigated using periodic DFT calculations with the PBE + U/PAW method and the dispersion correction of the Grimme method D3. The results reveal that the use of the co−sensitized led to significant stabilization of the formed complexes by at least 1.21 eV, the panchromatic effect on the absorption spectra, and an increase in the light-harvesting ability in the NIR region, which improves the performance of DSSCs. Figure illustrated the energy level alignments and UV–Vis absorption spectrum of single- and co-sensitization of TZCs and YR6 dyes using the periodic DFT calculations. [Display omitted] •Dye aggregation causes poor performance of dye-sensitized solar cell (DSSCs) applications.•Co-adsorption of Triphenylamine (TPA)-based dyes with squaraine (SQ) photosensitizer are good candidates for higher solar cell efficiency.•The molecular study showed a superior performance of the two-TZC dyes over the SQ-dye (YR6).•The co−sensitized was led to panchromatic that will improve the performance of DSSCs.
ISSN:1093-3263
1873-4243
DOI:10.1016/j.jmgm.2021.107833