Effects of the acceptor unit in dyes with acceptor-bridge-donor architecture on the electron photo-injection mechanism and aggregation in DSSCs

Zarate, Ximena; Claveria-Cadiz, Francisca; Aria-Olivares, David; Rodriguez-Serrano, Angela; Inostroza-Pino, Natalia; Schott, Eduardo

Keywords: dynamics, density-functional theory, design, effective core potentials, molecular calculations, charge-transfer, sensitized solar-cells, ENERGY-CONVERSION EFFICIENCY, FREE ORGANIC-DYES, COUMARIN DYES

Abstract

Dye-sensitized solar cells (DSSCs) are devices that convert light to electrical energy. Nowadays, researchers have focused on the understanding of the performance of dyes in solar cells. In this way, new efficient dyes have been obtained which can act as efficient light-harvesting compounds where the combination and the balance of acceptor(A)-bridge-donor(D) architectures confer suitable attributes and properties to the dye. Herein, we have carried out a DFT study on the optical and electronic properties of eight different A motifs and their influence on the electron photo-injection (PI) mechanisms through type I (indirect) or type II (direct) pathways in A-bridge-D dyes in DSSCs. The models consisted of thiophene as a bridge and triphenylamine as a D anchored to a TiO2 anatase cluster. All geometry optimizations were calculated using the B3LYP, CAM-B3LYP and BHandHLYP functionals combined with the 6-31G(d, p) basis set for C, H, N, O and S and the LANL2DZ pseudopotential for Ti atoms. Most of the A dyes display optoelectronic properties consistent with a type-I (indirect) mechanism except for the A5 dye where the results suggest a type-II (direct) PI pathway. In addition, molecular dynamics (MD) simulations have been carried out in order to describe the formation of dye dimers and analyze the stability of the aggregates due to intermolecular interactions. The observed trends indicate that dyes with A2 and A5 anchoring groups have less tendency to dimerize due to weaker intermolecular interactions resulting in less stable dimer complexes. Specifically, we found that the A motif influences the PI by a dye and the dimerization profiles

Más información

Título de la Revista: PHYSICAL CHEMISTRY CHEMICAL PHYSICS
Volumen: 18
Número: 35
Editorial: ROYAL SOC CHEMISTRY
Fecha de publicación: 2016
Página de inicio: 24239
Página final: 24251
Idioma: English
Financiamiento/Sponsor: The financial support of Fondecyt 11140563, Fondecyt 1161416 and CONICYT-Programa de Cooperacion Internacional-REDES150042 is gratefully acknowledged. The authors thanks Dr. Edgardo Rojas Mancilla for the graphical abstract
DOI:

10.1039/c6cp04662b

Notas: ISI