Strategies towards enhancing the efficiency of BODIPY dyes in dye sensitized solar cells

[Display omitted] •New BODIPY dyes with catechol anchoring and electron donating moieties for DSSCs.•Correlation between structural modification and excited state dynamics.•Correlation between excited state dynamics and power conversion efficiency.•Enhancing light harvesting capability by laser abla...

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Published in:Journal of photochemistry and photobiology. A, Chemistry. Chemistry., 2019-04, Vol.375, p.148-157
Main Authors: Yildiz, Elif Akhuseyin, Sevinc, Gokhan, Yaglioglu, H. Gul, Hayvali, Mustafa
Format: Article
Language:English
Subjects:
Absorption
Absorption spectra
Anchoring
Borondipyrromethene
Catechol-BODIPY
DSSC
Dye-sensitized solar cells
Dyes
Efficiency
Electrons
Emission spectra
Energy conversion efficiency
Injection
Laser ablation
Lasers
Morphology
Photovoltaic cells
Photovoltaics
Solar cells
Surface chemistry
Titanium dioxide
Ultrafast charge injection
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Summary:[Display omitted] •New BODIPY dyes with catechol anchoring and electron donating moieties for DSSCs.•Correlation between structural modification and excited state dynamics.•Correlation between excited state dynamics and power conversion efficiency.•Enhancing light harvesting capability by laser ablation of anode electrode. The goal of this study is to reveal the effect of electron donating and anchoring group of the dye on the electron injection dynamics and photovoltaic performance of BODIPY dye sensitized solar cells. The effect of electron donating properties was studied by choosing methoxyphenyl and triphenylamine (TPA) as electron donor moieties. Therefore, four new BODIPY derivatives were designed and sensitized to achieve these goals. In addition, attachment of the dye to TiO2 was studied by altering the surface morphology of TiO2 with fs laser ablation. The steady state absorption and emission spectra, femtosecond transient absorption spectra, incident photon-to-current conversion efficiency (IPCE) and I–V measurements of the studied dyes were investigated, systematically. It was found that methoxyphenyl moiety gives better performance than TPA moiety. BODIPY dye with methoxyphenyl moiety and one anchoring group demonstrated the best photovoltaic performance due to greater excited state lifetime in spite of the lower light harvesting ability, as compared to other studied dyes. Increasing the number of anchoring groups did not increase the photovoltaic performance of BODIPY dye with methoxyphenyl moiety. Anchoring efficiency, light-harvesting capability, and electron injection rate to TiO2 were enhanced by femtosecond laser ablation treatment of TiO2 surface. Experimental results proved that power conversion efficiency was increased 47% when photoanode was laser ablation treated.
ISSN:1010-6030
1873-2666
DOI:10.1016/j.jphotochem.2019.01.021