Abstract
This paper theoretically simulated (using DFT and TD-DFT in N,N-dimethylformamide (DMF) solvent) the photodynamic properties of three non-metallic dye molecules with D-π-A1-π-A2 structure. The total photoelectric conversion efficiency (PCE) could be evaluated by the following parameters: the geometric structures, the electronic structures, and the absorption spectra, the analyses of charge difference density (CDD) and natural bond orbitals (NBO), the analyses of ionization potential (IP) and electron affinity (EA) from electronic contribution capacity, the reorganization energies (, , and ), and the chemical reaction parameter (h, ω, , and ) for intramolecular charge transfer (ICT) processing, the excited lifetime (τ) and the vertical dipole moment (). The , the , the light harvesting efficiencies (LHE) and the excited lifetime (τ) were used to explain experimental . The experimental trend of was explained by the calculation of and . Moreover, the 15 dyes were designed by adding the electron-donor groups (–OH, –NH2, and –OCH3) and the electron-acceptor groups (–CF3, –F, and –CN) to the LS-387 molecular skeleton, which improved electronic contribution, intramolecular charge transfer (ICT), and optoelectronic performance.
Highlights
Since the beginning of the 21st century, environmental degradation and energy consumption have intensified
Reported the highly efficient dye-sensitized solar cells (DSSCs) based on Ru complex with photoelectric conversion efficiency (PCE) of 7.1–7.9%, more and more attention has been paid to DSSC due to its comparatively low cost and high efficiency [2–5]
This paper systematically studied the photoelectric properties of three basic dye molecules with
Summary
Since the beginning of the 21st century, environmental degradation and energy consumption have intensified. Silicon-based solar cells play a vital role in the field of energy with their excellent photoelectric conversion efficiency of about 26.6%. Their disadvantages, such as high cost, non-renewable raw materials, difficulty in preparation and not easy to be improved, have limited their wide application. Reported the highly efficient dye-sensitized solar cells (DSSCs) based on Ru complex with photoelectric conversion efficiency (PCE) of 7.1–7.9%, more and more attention has been paid to DSSC due to its comparatively low cost and high efficiency [2–5]. DSSCs sensitized by free-metal organic dyes have
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