Abstract
Three heterocyclic dyes were synthesized having in mind the changes in the photovoltaic, optical and redox properties by functionalization of 5-aryl-thieno[3,2-b]thiophene, 5-arylthiophene and bis-methylpyrrolylthiophene π-bridges with different donor, acceptor/anchoring groups. Knoevenagel condensation of the aldehyde precursors with 2-cyanoacetic acid was used to prepare the donor-acceptor functionalized heterocyclic molecules. These organic metal-free dyes are constituted by thieno[3,2-b]thiophene, arylthiophene, bis-methylpyrrolylthiophene, spacers and one or two cyanoacetic acid acceptor groups and different electron donor groups (alkoxyl, and pyrrole electron-rich heterocycle). The evaluation of the redox, optical and photovoltaic properties of these compounds indicate that 5-aryl-thieno[3,2-b]thiophene-based dye functionalized with an ethoxyl electron donor and a cyanoacetic acid electron acceptor group/anchoring moiety displays as sensitizer for DSSCs the best conversion efficiency (2.21%). It is mainly assigned to the higher molar extinction coefficient, long π-conjugation of the heterocyclic system, higher oxidation potential and strong electron donating capacity of the ethoxyl group compared to the pirrolyl moiety.
Highlights
Solar energy is a stimulating option for a renewable energy source, among others available, owing to its abundance, simplicity and ability for direct conversion into electricity [1,2].Dye-sensitized solar cells (DSSCs) belong to the third-generation photovoltaic (PV)devices [3], recently achieving a certified photocurrent conversion efficiency (PCE) of13% [4]
DSSCs were constituted by aryl, thiophene pyrrole nuclei, and different donor groups were assembled and characterized using procedures described in
It is well that the synthesis and the study of the structure–photovoltaic performance relationship of new metal free organic dyes in DSSCs is of great importance
Summary
Solar energy is a stimulating option for a renewable energy source, among others available, owing to its abundance, simplicity and ability for direct conversion into electricity [1,2].Dye-sensitized solar cells (DSSCs) belong to the third-generation photovoltaic (PV)devices [3], recently achieving a certified photocurrent conversion efficiency (PCE) of13% [4]. Devices [3], recently achieving a certified photocurrent conversion efficiency (PCE) of. DSSCs are perfectly fitted for indoor use to address this challenge [25,26]: they display one of the highest among other PV technologies PCE under artificial light—a record of 34.5% of PCE under 1000 lx light was attained recently [4]. DSSCs are safe for residential use as they are free from toxic soluble lead or tin compounds; they can be produced with several true colors and have an attractive appearance for nice and harmonic interior integration. DSSCs devices have started entering the market of indoor PVs [26,27]
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