Heteroleptic Cu() bis-diimine complexes as sensitizers in dye-sensitized solar cells (DSSCs): on some factors affecting intramolecular charge transfer

Heteroleptic Cu() bis-diimine complexes as sensitizers in dye-sensitized solar cells (DSSCs): on some factors affecting intramolecular charge transfer

A set of eight heteroleptic bis-diimine copper dye complexes with two different ancillary ligands (functionalised 2,9-dimethyl-1,10-phenanthroline (dmp) and functionalised 6,6′-diphenyl-2,2′-bipyridine (dpbpy)) are investigated for their potential use as sensitizers in dye-sensitized solar cells (DS...

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Veröffentlicht in:Physical chemistry chemical physics : PCCP 2022-07, Vol.24 (28), p.17217-17232
Hauptverfasser: Mishra, Radha, Jain, Kalpna, Sharma, Vinay Prabha, Kishor, Shyam, Ramaniah, Lavanya M
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Sprache:eng
Schlagworte:
Absorption spectra
Charge transfer
Conjugation
Copper
Density functional theory
Diimide
Dye-sensitized solar cells
Dyes
Electron states
Energy levels
First principles
Ligands
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container_issue 28
container_start_page 17217
container_title Physical chemistry chemical physics : PCCP
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creator Mishra, Radha
Jain, Kalpna
Sharma, Vinay Prabha
Kishor, Shyam
Ramaniah, Lavanya M
description A set of eight heteroleptic bis-diimine copper dye complexes with two different ancillary ligands (functionalised 2,9-dimethyl-1,10-phenanthroline (dmp) and functionalised 6,6′-diphenyl-2,2′-bipyridine (dpbpy)) are investigated for their potential use as sensitizers in dye-sensitized solar cells (DSSCs), using first principles density functional theory (DFT) and time dependent DFT (TDDFT). A detailed analysis of the structural properties, projected density of electronic states and Kohn-Sham energy levels, and optical absorption spectra in the UV-visible region reveals that substituting the thiophene group in the ancillary ligand, and enhancing conjugation in the anchoring ligand, lead to increase in the light harvesting efficiency (LHE). However, a natural transition orbital (NTO) analysis, shows that the nature of charge transfer depends mainly on the nature of the parent ancillary group and is not significantly affected by the structural modifications. Importantly, the lower energy excitations lead to favourable mixed metal to ligand charge transfer (MLCT) and ligand to ligand charge transfer (LLCT), as well as good electron injection. The best charge transfer directionality is found in the dmp-based dyes, particularly thiophene substituted dyes, thus making these the more effective sensitizers in DSSCs. A set of eight heteroleptic bis-diimine copper dye complexes with two different ancillary ligands are investigated for their potential use as sensitizers in dye-sensitized solar cells using first principles density functional theory.
doi_str_mv 10.1039/d2cp01880b
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A detailed analysis of the structural properties, projected density of electronic states and Kohn-Sham energy levels, and optical absorption spectra in the UV-visible region reveals that substituting the thiophene group in the ancillary ligand, and enhancing conjugation in the anchoring ligand, lead to increase in the light harvesting efficiency (LHE). However, a natural transition orbital (NTO) analysis, shows that the nature of charge transfer depends mainly on the nature of the parent ancillary group and is not significantly affected by the structural modifications. Importantly, the lower energy excitations lead to favourable mixed metal to ligand charge transfer (MLCT) and ligand to ligand charge transfer (LLCT), as well as good electron injection. The best charge transfer directionality is found in the dmp-based dyes, particularly thiophene substituted dyes, thus making these the more effective sensitizers in DSSCs. 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source Royal Society Of Chemistry Journals; Alma/SFX Local Collection
subjects Absorption spectra
Charge transfer
Conjugation
Copper
Density functional theory
Diimide
Dye-sensitized solar cells
Dyes
Electron states
Energy levels
First principles
Ligands
title Heteroleptic Cu() bis-diimine complexes as sensitizers in dye-sensitized solar cells (DSSCs): on some factors affecting intramolecular charge transfer
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