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Synthesis, characterization and evaluation of new alternative ruthenium complex for dye sensitized solar cells

Howida A. Fetouh, A. E. Dissouky, Hazem A. Salem, M. Fathy, Badawi Anis, A. E. Hady Kashyout

2024Scientific Reports17 citationsDOIOpen Access PDF

Abstract

Abstract For first time, new innovative ruthenium N3-Dye anchored with selenium (Se) and N3 dye anchored with sulphur atoms were synthesized in a good yield. Dyes are applied and evaluated in performance of dye sensitized solar cell. N3–Se dye showed superior photochemical& electrochemical behavior and high rate electron transfer across anode surface than N3–S dye. The better optical and electrochemical activities would make Se-dye a candidate for applications in solar cells. Half life time of N3–S showed a single exponential decay with an average lifetime of 0.8 ns. For N3–Se dye, decay curve was fitted by sum two exponential functions with 75% and 25% counts have 2.5 ns and 30 ns respectively. Solar cells were fabricated and analyzed to determine their solar-to-electric conversion efficiency under standard AM 1.5 sunlight. Commercial N3 dyes showed current density (J sc ) of 17.813 mA cm −2 , open circuit potential (V oc ) of 0.678 V, filling factor (FF) of 0.607 and conversion efficiencies (η) of 7.3%. Corresponding values for N3–S dye, Jsc 11.2 mA cm −2 , V oc 0.650 V, FF 0.681 and η 5%. Se–N3 dye, showed J sc = 6.670 mA cm −2 , V oc = 0.6004 V, FF = 0.77 and η = 3.09%. Long lifetime of N3–Se caused low practical performance.

Topics & Concepts

RutheniumDye-sensitized solar cellElectrochemistryAnodeMaterials scienceOpen-circuit voltageIrradianceSolar cellEnergy conversion efficiencyYield (engineering)Analytical Chemistry (journal)PhotochemistryNuclear chemistryChemistryOpticsPhysical chemistryOptoelectronicsElectrodeOrganic chemistryPhysicsCatalysisElectrolyteVoltageMetallurgyQuantum mechanicsTiO2 Photocatalysis and Solar CellsAdvanced Photocatalysis TechniquesQuantum Dots Synthesis And Properties
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