Prospecting Lighting Applications with Ligand Field Tools and Density Functional Theory: A First-Principles Account of the 4f7–4f65d1 Luminescence of CsMgBr3:Eu2+

Ramanantoanina, Harry; Cimpoesu, Fanica; Göttel, Christian; Sahnoun, M.; Herden, Benjamin; Suta, Markus; Wickleder, Claudia; Urland, Werner; Daul, Claude

doi:10.1021/acs.inorgchem.5b00988

Cited by 41 publications

(39 citation statements)

References 61 publications

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“…57 DFTbased cluster calculations recently showed that this is a reasonably good assumption even if the ionic radii of the alkaline earth and lanthanide ions differ a lot. 61,67 The dependence on the metal-ligand distance is weak compared to expectations from classical crystal field theory (r À5 dependence), but gets closer to the estimations of the chemical shift model of Dorenbos attempted for Ce 3+ or Eu 2+ (r À2 dependence). 68 We found an r À1.2 dependence of 10 Dq of Yb 2+ for the halides CsMX 3 .…”

Section: Effect On Crystal Field and Exchange Splittingsupporting

confidence: 73%

“…A clear assignment of all states can only be attempted upon inclusion of the full Hamiltonian, as performed by the theoretical approaches mentioned above. 33,35,36,60,61 However, it becomes clear from the spectra that the decoupled scheme affords very reasonable results in a simple manner and without calculation, which is particularly important for experimentalists.…”

Section: Fine Structure Of the Excitation Spectramentioning

confidence: 99%

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Photoluminescence properties of Yb²⁺ ions doped in the perovskites CsCaX₃ and CsSrX₃ (X = Cl, Br, and I) – a comparative study

Suta

Urland

Daul

et al. 2016

Phys. Chem. Chem. Phys.

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The Yb(2+)-doped perovskite derivatives CsMX3 (M = Ca and Sr; X = Cl, Br, and I) are ideal systems for obtaining a detailed insight into the structure-luminescence relationship of divalent lanthanides. The investigation of the respective photoluminescence properties yielded two emission bands in the violet and blue spectral range for all compounds, which are assigned to the spin-allowed and spin-forbidden 5d-4f transitions, respectively. The impact on their energetic positions is dependent on both the covalency of the Yb(2+)-halide bond and the corresponding bond length in agreement with expectations. The excitation spectra provide a detailed fine structure at low temperatures and can be partly interpreted separating the 4f(13) core from the 5d electron in the excited state. The local crystal field in CsSrI3:Yb(2+) provides a special case due to the trigonal distortion induced by the crystal structure that is clearly evident in the luminescence features of Yb(2+). The structure-property relationship of several spectroscopic key quantities of Yb(2+) in this series of halides is analyzed in detail and parallels the properties of Eu(2+) ions doped in the given perovskites.

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Section: Effect On Crystal Field and Exchange Splittingsupporting

confidence: 73%

Section: Fine Structure Of the Excitation Spectramentioning

confidence: 99%

Photoluminescence properties of Yb²⁺ ions doped in the perovskites CsCaX₃ and CsSrX₃ (X = Cl, Br, and I) – a comparative study

Suta

Urland

Daul

et al. 2016

Phys. Chem. Chem. Phys.

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“…58 Recently, advances have been made by using ligand field density functional theory (LFDFT) to describe the 4f 7 good agreement. 59 Although useful, the computational cost of these calculations preclude HT computations from predicting the optical properties on a large scale.…”

Section: +mentioning

confidence: 99%

Phosphors by Design: Approaches Toward the Development of Advanced Luminescent Materials

Hermus

Brgoch

2015

Interface magazine

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The rapid discovery of new phosphors is necessary to enhance the next generation of solid-state lighting by improving device color quality and decreasing cost. This article reviews key non-conventional methods used to expedite novel phosphor discovery. The methods reviewed (with selected examples) include experimental methods such as combinatorial screening, and combined experimental and computation-based methods such as genetic-algorithm-assisted combinatorial chemistry and certain multi-objective optimization processes, and sophisticated stand-alone computational design processes that employ methods such as DFT. Key descriptors (such as Debye temperature) to be evaluated by computation are identified and their correlation to important properties are outlined.

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“…In recent years, spectroscopic properties of divalent lanthanide elements (Ln 2+ ) have been intensively studied, both experimentally and theoretically . However, electronic spectroscopy of divalent neodymium still remains practically an unexplored area.…”

Section: Introductionmentioning

confidence: 99%

Optical Absorption Spectra of Divalent Neodymium (Nd²⁺) in Bromide and Iodide Hosts

Karbowiak

Rudowicz

2018

Eur J Inorg Chem

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The electronic spectra for Nd2+ ions in bromide and iodide hosts are reported for the first time. These spectra, together with the recently obtained spectra for the chloride matrix, constitute a substantial series of Nd2+ spectra in crystals. Importantly, these crystals differ in the factors important for the physical properties of the divalent lanthanide Ln2+ ions; that is, the ligand's chemical character and the symmetry of the crystal field. The available experimental data allow systematic investigations of the impact of these factors on the electronic spectra, and thus, spectroscopic properties of Nd2+ ions. These investigations are the main aim of this study. The results indicate that due to the increasing covalence of the Nd2+ environment in the Cl–Br–I series, the energy of the first f–d transition shifts into the infrared region, from 6121 cm–1 for SrCl2/Nd2+ to ca. 5260 cm–1 for SrI2/Nd2+, whereas the strength of the crystal field decreases along this series. Calculations using the parametric Hamiltonian and superposition model are carried out to quantitatively interpret the measured spectra. The simulated spectra exhibit good agreement with the experimental spectra. Using the proposed approach, a meaningful interpretation and assignment of the bands observed in the spectra has been achieved.

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Prospecting Lighting Applications with Ligand Field Tools and Density Functional Theory: A First-Principles Account of the 4f⁷–4f⁶5d¹ Luminescence of CsMgBr₃:Eu²⁺

Cited by 41 publications

References 61 publications

Photoluminescence properties of Yb²⁺ ions doped in the perovskites CsCaX₃ and CsSrX₃ (X = Cl, Br, and I) – a comparative study

Photoluminescence properties of Yb²⁺ ions doped in the perovskites CsCaX₃ and CsSrX₃ (X = Cl, Br, and I) – a comparative study

Phosphors by Design: Approaches Toward the Development of Advanced Luminescent Materials

Optical Absorption Spectra of Divalent Neodymium (Nd²⁺) in Bromide and Iodide Hosts

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Prospecting Lighting Applications with Ligand Field Tools and Density Functional Theory: A First-Principles Account of the 4f7–4f65d1 Luminescence of CsMgBr3:Eu2+

Cited by 41 publications

References 61 publications

Photoluminescence properties of Yb2+ ions doped in the perovskites CsCaX3 and CsSrX3 (X = Cl, Br, and I) – a comparative study

Photoluminescence properties of Yb2+ ions doped in the perovskites CsCaX3 and CsSrX3 (X = Cl, Br, and I) – a comparative study

Phosphors by Design: Approaches Toward the Development of Advanced Luminescent Materials

Optical Absorption Spectra of Divalent Neodymium (Nd2+) in Bromide and Iodide Hosts

Contact Info

Product

Resources

About

Prospecting Lighting Applications with Ligand Field Tools and Density Functional Theory: A First-Principles Account of the 4f⁷–4f⁶5d¹ Luminescence of CsMgBr₃:Eu²⁺

Photoluminescence properties of Yb²⁺ ions doped in the perovskites CsCaX₃ and CsSrX₃ (X = Cl, Br, and I) – a comparative study

Photoluminescence properties of Yb²⁺ ions doped in the perovskites CsCaX₃ and CsSrX₃ (X = Cl, Br, and I) – a comparative study

Optical Absorption Spectra of Divalent Neodymium (Nd²⁺) in Bromide and Iodide Hosts