Photoinduced Charge Transport Dynamics under the Influence of an Electric Field on Dye-Sensitized Solar Cells with a D−π–A Structure

Kaur, Hemjot; Goel, Neetu

doi:10.1021/acsaelm.4c00678

Cited by 3 publications

(1 citation statement)

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“…The ground state optimized geometries are presented in Figure S1. The performance of the in silico designed photosensitizers was evaluated in an operational solar cell setup based on a TiO 2 semiconductor, which possesses a conduction band (CB) energy level of −4.00 eV and I 3 – /I – electrolyte with a reduction potential of −4.80 eV. , …”

Section: Resultsmentioning

confidence: 99%

Beyond SM315: A Comprehensive Analysis of Power Conversion Efficiency in Tailored Donor–Acceptor Porphyrin Sensitizers for DSSCs

Kaur,

Goel

2024

J. Phys. Chem. C

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A systematic investigation was conducted on a series of Zn-porphyrin sensitizers by carrying out static and timedependent density functional calculations to assess highly efficient candidates for dye-sensitized solar cells. The SM315 dye, noted for its record-breaking power conversion efficiency of 13%, was chosen as the reference dye; it comprises bis(2′,4′-bis(hexyloxy)-[1,1′biphenyl]-4-yl) amine as a donor (D0) unit, π-linker phenyl ring as a bridge, and carboxylic acid as an acceptor (A0) unit. It was tailored with 11 electron-rich donors (D1-D11) and four electronwithdrawing units (A1-A4) as acceptors. The performance of the in silico designed photosensitizers was evaluated in an operational solar cell setup with a TiO 2 semiconductor and I 3 − /I − electrolyte. The absorption spectra of most of the tailored dyes was red-shifted and their frontier orbitals were suitably aligned with the conduction band of the semiconductor. The efficiency of the engineered dyes was analyzed in terms of the key parameters such as light-harvesting efficiency (LHE), short-circuit current density (J SC ), opencircuit voltage (V OC ), exciton binding energy (EBE), reorganization energy (λ), electron transfer rate (k), and polarizability and hyperpolarizability (α and β tot ) in reference to the well-known SM315 dye. The dye decorated with a D9 donor group and A1-A4 acceptor groups reached the remarkable power conversion efficiency of >29%. The current study not only proposes the design of a highly efficient porphyrin sensitizer via its engineering at the molecular level but also provides an in-depth understanding of its impact on the working of a dye-sensitized solar cell through state-of-the-art investigations.

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Section: Resultsmentioning

confidence: 99%