Abstract
A series of coumarin dyes containing a low-band-gap chromophore of ethylenedioxythiophene (EDOT), which comprises a coumarin moiety as the electron donor and a cyanoacrylic acid moiety as electron acceptor in D–π–A chromophores, were developed for use in dye-sensitised solar cells (DSSCs). These coumarin dyes have been used to fabricate DSSCs using I
−/I
3
− liquid electrolytes and their device performances were compared with that of
NKX-2677 as a standard dye. Even though
HKK-CM2 and
HKK-CM3 have more extended aromatic units than
HKK-CM1, the degree of π-conjugation in
HKK-CM2 and
HKK-CM3 is less efficient than that of
HKK-CM1, due to the relatively larger torsion angle between the plane of the donor and that of the acceptor. It is also in a good agreement with Density Functional Theory (DFT) calculations. As a result, a solar cell based on
HKK-CM1 sensitiser shows better photovoltaic performance with J
SC of 14.2 mA cm
−2, V
OC of 0.60 V, and a fill factor of 0.70, corresponding to an overall conversion efficiency
η of 6.07% under the standard AM 1.5 irradiation, than
HKK-CM2 and
HKK-CM3-based solar cells.
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► A series of coumarin dyes containing a low-band-gap chromophore (ethylenedioxythiophene), which comprises a coumarin moiety as the electron donor and a cyanoacrylic acid moiety as the electron acceptor in D–π–A chromophores, were developed for use in dye-sensitised solar cells. ► Even though
HKK-CM2 and
HKK-CM3 have more extended aromatic units than
HKK-CM1, the degree of π-conjugation in
HKK-CM2 and
HKK-CM3 is less efficient than that of
HKK-CM1, due to the relatively larger torsion angle between the plane of the donor and that of the acceptor. ► As a result, a solar cell based on
HKK-CM1 sensitiser shows better photovoltaic performance with J
SC of 14.2 mA cm
−2, V
OC of 0.60 V, and a fill factor of 0.70, corresponding to an overall conversion efficiency
η of 6.07% under standard AM 1.5 irradiation, than
HKK-CM2 and
HKK-CM3-based solar cells.