Geometric, optical, and phosphorescent properties of cationic Ir(III) and Rh(III) complexes with cyclometalated ligands: DFT/TDDFT investigations

Seghir, Imane; Nebbache, Nadia; Brahim, Houari

doi:10.1007/s00706-021-02750-6

Cited by 3 publications

(2 citation statements)

References 40 publications

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“…In this manuscript we focus on the investigation of the coordination behaviour of HL 2,5 and HL 2,6 toward rhodium(III) chloride and on unveiling the impact of isomerism on structures and properties. Our particular interest to rhodium complexes stems partly from our experience in rhodium chemistry [82][83][84] and partly from appealing properties this metal shows in the C-H bond activation and catalysis, [85][86][87][88][89][90][91] photochemistry [92][93][94][95][96][97][98][99][100][101][102][103][104][105][106][107] and bioinorganic chemistry. Along with the synthesis of HL 2,5 and HL 2,6 and their rhodium(III) complexes [RhL 2,5 (Solv)Cl 2 ]•nEtOH and [RhL 2,6 (Solv)Cl 2 ]•nEtOH, here we report the impact of isomerism on molecular and supramolecular structures of these compounds, on the photophysical properties of the rhodium(III) complexes and on the cytotoxic activity of the ligands and complexes.…”

Section: Introductionmentioning

confidence: 99%

N^N^C-Cyclometalated rhodium(iii) complexes with isomeric pyrimidine-based ligands: unveiling the impact of isomerism on structural motifs, luminescence and cytotoxicity

Vorobyeva,

Bautina,

Shekhovtsov

et al. 2024

Dalton Trans.

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Section: Introductionmentioning

confidence: 99%

N^N^C-Cyclometalated rhodium(iii) complexes with isomeric pyrimidine-based ligands: unveiling the impact of isomerism on structural motifs, luminescence and cytotoxicity

Vorobyeva,

Bautina,

Shekhovtsov

et al. 2024

Dalton Trans.

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“…Platinum (II) and iridium (III) complexes containing 2-phenylpyridyl (ppy) have been widely investigated due to their high luminescence efficiencies and stability [10,11]. To improve luminescence quantum yield of theses complexes, scientists have focused their studies on replacing phenyl and/or pyridine of ppy by another aromatic group (such as thiophene, picolinate, and Schiff base) [12][13][14][15] or by introducing electron donating and/or withdrawing groups at different site in ppy ligand [16][17][18]. Also, combination of C^N type ligands with acac ligand has also been considered to modify the optical properties of platinum complexes, notably the character of the lowest excited states to obtain better luminescence efficiency and tunable emission color [19][20][21].…”

Section: Introductionmentioning

confidence: 99%

Theoretical investigation on orange-emitting cyclometalated platinum (II) complexes containing organosilyl/organocarbon-substituted 2-(2-thienyl)pyridine ligands

Mezouar

Brahim

2022

Photochem Photobiol Sci

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This paper presents a theoretical investigation of structural, optical, and phosphorescence properties of four cyclometalated Pt(II) complexes containing substituted 2-(2-thienyl)pyridine ligands using DFT and TD-DFT methods. Geometrical parameters of ground states were calculated and compared with available experimental data. Electronic absorptions were studied and assigned in terms of natural transition orbitals. Phosphorescence spectra have been simulated with adiabatic Hessian and adiabatic shift approaches according to the Franck-Condon approximation. Theoretical and experimental results agree and show that the four complexes exhibit two intense bands in orange region. Main normal modes involved in phosphorescence bands were analyzed and assigned.

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Theoretical investigation on phosphorescent platinum complexes based on two tetradentate bipyridine ligands

Mezouar,

Brahim,

Boumediene

et al. 2024

Theor Chem Acc

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In this work, the geometrical, optical, and phosphorescence properties of four complexes with general formula [dRpypy-C(OCH3)R′-dRpypy]Pt, with Pt-1 (R = F, R′=methyl), Pt-2 (R = F, R′=hexyl), Pt-3 (R = methoxy, R′=methyl) and Pt-4 (R = methoxy, R′=hexyl) were studied using the B3PW91 and TD-B3PW91 methods. The effect of the double substitution R and R′ on the electronic properties of the four complexes has been investigated. Replacing the two uorine atoms with the two methoxy groups modi es the shape of the UV-vis spectra and red shift the phosphorescence spectra, while the substituents on the linker R′ do not induces changes in both spectra. Normal modes involved in the vibronic structure were identi ed and analyzed using adiabatic Hessian approaches according to the Franck-Condon approximation. The computed phosphorescence wavelengths agree with the observed ones and indicate that the uorinated complexes exhibit a bright light blue color, while the methoxy complexes display a light spring green color.

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Geometric, optical, and phosphorescent properties of cationic Ir(III) and Rh(III) complexes with cyclometalated ligands: DFT/TDDFT investigations

Cited by 3 publications

References 40 publications

N^N^C-Cyclometalated rhodium(iii) complexes with isomeric pyrimidine-based ligands: unveiling the impact of isomerism on structural motifs, luminescence and cytotoxicity

N^N^C-Cyclometalated rhodium(iii) complexes with isomeric pyrimidine-based ligands: unveiling the impact of isomerism on structural motifs, luminescence and cytotoxicity

Theoretical investigation on orange-emitting cyclometalated platinum (II) complexes containing organosilyl/organocarbon-substituted 2-(2-thienyl)pyridine ligands

Theoretical investigation on phosphorescent platinum complexes based on two tetradentate bipyridine ligands

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