Mehdi Eskandari scite author profile

In this work MoS thin film was studied as a potential two-dimensional (2D) hole-transporting material for fabrication of low-cost, durable and efficient perovskite solar cells. The thickness of MoS was studied as a potential factor in reaching high power conversion efficiency in perovskite solar cells. The thickness of the perovskite layer and the different metal back contacts gave distinct photovoltaic properties to the designed cells. The results show that a single sheet of MoS could considerably improve the power conversion efficacy of the device from 10.41% for a hole transport material (HTM)-free device to 20.43% for a device prepared with a 0.67 nm thick MoS layer as a HTM. On the back, Ag and Al collected the carriers more efficiently than Au due to the value of their metal contact work function with the TiO conduction band. The present work proposes a new architecture for the fabrication of low-cost, durable and efficient perovskite solar cells made from a low-cost and robust inorganic HTM and electron transport material.

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Counterion-Mediated Crossing of the Cyanine Limit in Crystals and Fluid Solution: Bond Length Alternation and Spectral Broadening Unveiled by Quantum Chemistry

Eskandari

Roldao

Cerezo

et al. 2020

J. Am. Chem. Soc.

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Absorption spectra of cyanine ⊕ •Br ⊖ salts show a remarkable solvent dependence in non/polar solvents, exhibiting narrow, sharp band shapes in dichloromethane but broad features in toluene; this change was attributed to ion pair association, stabilizing an asymmetric dipolar structure, similar to the situation in the crystal (Bouit, P.-A., et al. J. Am. Chem. Soc. 2010, 132, 4328). Our density functional theory (DFT)-based quantum mechanics/molecular mechanics (QM/MM) calculations of the crystals evidence the crucial role of specific asymmetric anion positioning on the lowering of the symmetry. Molecular dynamics (MD) simulations prove the ion pair association in nonpolar solvents. Time-dependent DFT vibronic calculations in toluene show that ion pairing indeed stabilizes an asymmetric dipolar structure in the electronic ground state. This largely broadens the absorption spectrum in very reasonable agreement with experiment, while the principal pattern of vibrational modes is retained. The current findings allow us to establish a unified picture of the symmetry breaking of polymethine dyes in fluid solution.

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Microextraction of mebendazole across supported liquid membrane forced by pH gradient and electrical field

Eskandari

Yamini

Fotouhi

et al. 2011

Journal of Pharmaceutical and Biomedical Analysis

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Asymmetric wave propagation in a transversely isotropic half-space in displacement potentials

Khojasteh

Rahimian

Eskandari

et al. 2008

International Journal of Engineering Science

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Mehdi Eskandari

Preparation, characterization and adsorption potential of the NH4Cl-induced activated carbon for the removal of amoxicillin antibiotic from water

MoS₂: a two-dimensional hole-transporting material for high-efficiency, low-cost perovskite solar cells

Counterion-Mediated Crossing of the Cyanine Limit in Crystals and Fluid Solution: Bond Length Alternation and Spectral Broadening Unveiled by Quantum Chemistry

Microextraction of mebendazole across supported liquid membrane forced by pH gradient and electrical field

Asymmetric wave propagation in a transversely isotropic half-space in displacement potentials

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Mehdi Eskandari

Preparation, characterization and adsorption potential of the NH4Cl-induced activated carbon for the removal of amoxicillin antibiotic from water

MoS2: a two-dimensional hole-transporting material for high-efficiency, low-cost perovskite solar cells

Counterion-Mediated Crossing of the Cyanine Limit in Crystals and Fluid Solution: Bond Length Alternation and Spectral Broadening Unveiled by Quantum Chemistry

Microextraction of mebendazole across supported liquid membrane forced by pH gradient and electrical field

Asymmetric wave propagation in a transversely isotropic half-space in displacement potentials

Contact Info

Product

Resources

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MoS₂: a two-dimensional hole-transporting material for high-efficiency, low-cost perovskite solar cells