2021
DOI: 10.1021/acs.inorgchem.1c01123
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Nature of the Ligand-Centered Triplet State in Gd3+β-Diketonate Complexes as Revealed by Time-Resolved EPR Spectroscopy and DFT Calculations

Abstract: A series of Gd 3+ complexes ( Gd1 – Gd3 ) with the general formula GdL 3 (EtOH) 2 , where L is a β-diketone ligand with polycyclic aromatic hydrocarbon substituents of increasing size ( 1 – 3 ), was studied by combining time-resolved electron paramagnetic resonance (TR-EPR) spectroscopy and DFT calculations to rationalize the anomalous spectroscopic be… Show more

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Cited by 6 publications
(4 citation statements)
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“… Experimentally, the triplet energy levels of the ligand ctpy were resolved by synthesizing the Gd-mtpy complex (mtpy = Ester form of the ctpy ligand; see the experimental section in Supporting Information, Figure S36) and thereby recording the low-temperature phosphorescence spectrum of the complex excited at 330 nm. This result revealed the triplet energy level of ctpy to be 25,314 cm –1 , which is in good accordance with the value of 25,123 cm –1 obtained from the DFT calculation. ,, Furthermore, the energy transfer mechanism from the ligand ctpy to Ln 3+ was calculated based on the experimental results. Due to the energy mismatch between the ligand and Ln 3+ ions, the electron–phonon coupling between the Ln 3+ ions and the surrounding lattice environment assists in transferring the energy from the ligand to the Ln 3+ ion. ,, The electron–phonon coupling of Zr-ctpy-NMOF@Tb and Zr-ctpy-NMOF@Eu was found to be 2.57 and 1.43, respectively (Figures S37a,b and S38a,b and Table S5; see the Supporting Information for more details).…”
Section: Resultssupporting
confidence: 85%
See 1 more Smart Citation
“… Experimentally, the triplet energy levels of the ligand ctpy were resolved by synthesizing the Gd-mtpy complex (mtpy = Ester form of the ctpy ligand; see the experimental section in Supporting Information, Figure S36) and thereby recording the low-temperature phosphorescence spectrum of the complex excited at 330 nm. This result revealed the triplet energy level of ctpy to be 25,314 cm –1 , which is in good accordance with the value of 25,123 cm –1 obtained from the DFT calculation. ,, Furthermore, the energy transfer mechanism from the ligand ctpy to Ln 3+ was calculated based on the experimental results. Due to the energy mismatch between the ligand and Ln 3+ ions, the electron–phonon coupling between the Ln 3+ ions and the surrounding lattice environment assists in transferring the energy from the ligand to the Ln 3+ ion. ,, The electron–phonon coupling of Zr-ctpy-NMOF@Tb and Zr-ctpy-NMOF@Eu was found to be 2.57 and 1.43, respectively (Figures S37a,b and S38a,b and Table S5; see the Supporting Information for more details).…”
Section: Resultssupporting
confidence: 85%
“…This result revealed the triplet energy level of ctpy to be 25,314 cm −1 , which is in good accordance with the value of 25,123 cm −1 obtained from the DFT calculation. 13,19,65 Furthermore, the energy transfer mechanism from the ligand ctpy to Ln 3+ was calculated based on the experimental results. Due to the energy mismatch between the ligand and Ln 3+ ions, the electron−phonon coupling between the Ln 3+ ions and the surrounding lattice environment assists in transferring the energy from the ligand to the Ln 3+ ion.…”
Section: ■ Introductionmentioning
confidence: 99%
“…The S 1 of Ca II –CAM 3– is evaluated to be 31 646 cm –1 (316 nm) by referring to the absorbance edges of the UV–Vis spectra . To gain a molecular level insight into the UV–vis spectra of CaEuCAM , the proton saturated Ca II –CAM 3– extracted from CaEuCAM is used as a calculation model for TD-DFT calculations at the B3LYP/DGDZVP (d, f) level. , The calculations are carried out for the optimized geometry of the antenna in the ground ( S 0 ) and first excited ( S 1) singlets . The electronic transitions, oscillator strengths of the main absorption bands, and contributions are shown in Table S4.…”
Section: Resultsmentioning
confidence: 99%
“…Notably, there is currently no general theory describing how photophysical properties of a ligand change upon coordination to different metal ions. Several empirically derived guidelines enable a prediction of the energy change in the first excited singlet state [22], the triplet state [23], or the luminescence quantum yield [24]. According to these rules, we can estimate the luminescence efficiency of coordination compounds.…”
Section: Introductionmentioning
confidence: 99%