Qabas Alkhatib scite author profile

A series of 16 BODIPY dye for DSSC applications are designed with the aim of obtaining a controlled red-shift of their absorption band maxima. The design is based on changing the number and position of the substituted methyls at the BODIPY moiety. The excited-state properties of the proposed molecular dyes were predicted with the TD-B2PLYP/def2-TZVP level. In going from the fully methyl substituted dye (D1357) to the unsubstituted one (D0) where all the methyls are replaced by hydrogens, a gradual red-shift of the lowest and most intense electronic excitation was observed (reaching a max. of 0.8 eV ≈ 220 nm) which resulted from lower HOMO-LUMO gaps and higher conjugation. The tuning function of the methyls on the electronic spectra and other relevant properties of these chemical moieties is carefully analyzed. Replacing the methyls with hydrogens was also found to induce more significant charge-transfer character, as indicated by natural transition orbital (NTO) and electronic structure analysis, enhanced excited-state life-times, and electron transport abilities, while slightly reduce the calculated light harvesting efficiency and the free-energy of electron injection ΔG inj .

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Qabas Alkhatib

Accurate predictions of the electronic excited states of BODIPY based dye sensitizers using spin-component-scaled double-hybrid functionals: a TD-DFT benchmark study

Can time-dependent double hybrid density functionals accurately predict electronic excitation energies of BODIPY compounds?

Assessment of time-dependent density functionals for the electronic excitation energies of organic dyes used in DSSCs

Tuning the photophysical properties ofBODIPYdyes used inDSSCsas predicted by double‐hybridTD‐DFT: The role of the methyl substituents

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