Structural studies and photovoltaic investigation of indolo2,3-bquinoxaline-based sensitizers/co-sensitizers achieving highly efficient DSSCs

Su Rui; Lyu Luping; Elmorsy Mohamed R.El-Shafei Ahmed

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Structural studies and photovoltaic investigation of indolo2,3-bquinoxaline-based sensitizers/co-sensitizers achieving highly efficient DSSCs

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Three metal-free organic dyes, coded FS10, FS11, and FS12, were designed and synthesized by employing indolo2,3-bquinoxaline (IQ) as the main building block and three different edged donors, viz., triphenylamine, carbazole, and phenothiazine, respectively. In order to comprehend the feasibility of the novel dyes as probable sensitizers/co-sensitizers, they were well-characterized and their photochemical, electrochemical, and theoretical studies were processed. The photovoltaic properties were evaluated under 1.5 AM standard illumination conditions. FS10 acquired the best DSSC performance (eta = 5.27) with supreme V-OC (0.676 V) and FF (70.1). The contribution from the incorporated IQ was examined theoretically by using DFT and time-dependent DFT, and the results indicated that all the novel dyes displayed clear charge separation at the frontier occupied molecular orbitals. The investigation of the co-sensitization effect was carried out by employing the HD-2 ruthenium sensitizer. The corresponding photovoltaic performance revealed that FS10 gave the most positive co-sensitization effect by improving the efficiency to 8.32 (J(SC) = 18.68 mA cm(-2), V-OC = 0.672 V, FF = 66.2), while HD-2 alone exhibited the efficiency of 7.47 (J(SC) = 19.00 mA cm(-2), V-OC = 0.650 V, FF = 60.5). The increased V-OC and FF resulted from the optimized anchoring mode on the TiO2 surface with the combination of FS10 and HD-2 and more uniform coverage, leading to the hindrance of dye aggregation and charge recombination. Additionally, despite the reduced J(SC) with co-sensitizers, the corresponding IPCE curves displayed more complex increasing as well as decreasing behavior as a function of wavelengths, thus reflecting that sensitizers and co-sensitizers not only compete but also compensate the light harvesting abilities.

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《New Journal of Chemistry》 |2020年第7期|2797-2812|共16页
作者
Su Rui; Lyu Luping; Elmorsy Mohamed R.El-Shafei Ahmed;
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作者单位

North Carolina State Univ, Polymer & Color Chem Program, Raleigh, NC 27606 USA;

Mansoura Univ, Fac Sci, Dept Chem, El Gomhoria St, Mansoura 35516, Egypt;

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正文语种英语
中图分类化学;
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1. Highly Efficient Rigidified Quinoxaline-based Co-Sensitizers Carrying Long Alkyl Chains for Ruthenium-Complex- Sensitized DSSCs [J] . Luping Lyu, Rui Su, Ahmed El-Shafei Chemistry Select . 2022,第33期

机译：Highly Efficient Rigidified Quinoxaline-based Co-Sensitizers Carrying Long Alkyl Chains for Ruthenium-Complex- Sensitized DSSCs
2. Highly Efficient Rigidified Quinoxaline-based Co-Sensitizers Carrying Long Alkyl Chains for Ruthenium-Complex-Sensitized DSSCs [J] . Lyu Luping, Su Rui, El-Shafei Ahmed chemistryselect . 2022,第33期

机译：Highly Efficient Rigidified Quinoxaline-based Co-Sensitizers Carrying Long Alkyl Chains for Ruthenium-Complex-Sensitized DSSCs
3. Synthesis and characterization of a new phenothiazine-based sensitizer/co-sensitizer for efficient dye-sensitized solar cell performance using a gel polymer electrolyte and Ni–TiO2 as a photoanode [J] . Devadiga Dheeraj, Selvakumar M., Devadiga DeepakAhipa T. N.Shetty PrakashaParamasivam SelvarajKumar S. Senthil New Journal of Chemistry . 2022,第44期

机译：Synthesis and characterization of a new phenothiazine-based sensitizer/co-sensitizer for efficient dye-sensitized solar cell performance using a gel polymer electrolyte and Ni–TiO2 as a photoanode

Structural studies and photovoltaic investigation of indolo2,3-bquinoxaline-based sensitizers/co-sensitizers achieving highly efficient DSSCs

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