1. Benzodithiophene based organic dyes for DSSC: Effect of alkyl chain substitution on dye efficiency
- Author
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Clara Baldoli a, Stefania Bertuolo b, Emanuela Licandro b, Lucia Viglianti b, Patrizia Mussini b, Gabriele Marotta c, Paolo Salvatori c, d, Filippo De Angelis c, Paola Manca e, Norberto Manfredi e, Alessandro Abbotto e, Baldoli, C, Bertuolo, S, Licandro, E, Viglianti, L, Mussini, P, Marotta, G, Salvatori, P, De Angelis, F, Manca, P, Manfredi, N, and Abbotto, A
- Subjects
chemistry.chemical_classification ,Cyclic voltammetry ,Chemistry ,General Chemical Engineering ,Benzodithiophene ,Process Chemistry and Technology ,Solvent effect ,Electrochemistry ,Photochemistry ,Push-pull dyes ,Solvent ,DFT-TDDFT ,Dye sensitized solar cells ,Solvent effects ,Chemical Engineering (all) ,DFTeTDDFT ,Dye-sensitized solar cell ,Molecule ,Density functional theory ,Push-pull dye ,Dye sensitized solar cell ,Alkyl - Abstract
A series of pushepull triarylamine organic dyes containing the benzo[1,2-b:4,5-b0]dithiophene unit as a spacer and bearing alkyl chains in different positions of the molecule were synthesized. The new dyes 1 e4 were characterized by optical and electrochemical measurements and density functional theory calculations and used as sensitizers in liquid dye-sensitized solar cells. The effect of alkyl chain position on dye properties and performances was investigated and dye 1, bearing two 3,7-dimethyloctyl groups on the benzodithiophene core, exhibited the best behaviour in term of light absorption and cell performance (PCE of 6.6%, to be compared with a PCE of 8.1% for N719-based device). The efficiency of the DSSC was highly dependent on the solvent used for the dye-sensitizing bath, which affects the position of the COOH/COO equilibrium. © 2015 Elsevier Ltd. All rights reserved. 1. Introduction In recent years metal-free organic dyes for DSSC [1e4] have been the object of a growing interest by organic chemists, because a great number of diverse structures can be easily prepared using well established synthetic methodologies and, through appropriate molecular design, their optical, electronic and electrochemical properties can be finely modulated [5e7]. The most efficient metalfree dyes for DSSC are characterized by a pushepull structure in which an
- Published
- 2015