Photonic Effects for Magnetic Dipole Transitions

Wang, Zijun; Senden, Tim; Meijerink, Andries

doi:10.1021/acs.jpclett.7b02558

Cited by 24 publications

(15 citation statements)

References 39 publications

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“…[a] For the solid‐state samples, τ Er,rad was calculated assuming that the structures are similar in different media and taking into account a simple n 3 dependence [Eq. (2)] of the refractive index with n solid =1.517 and n CH3CN =1.344 . [b] c =3 m m .…”

Section: Resultsmentioning

confidence: 99%

Thermodynamic Programming of Erbium(III) Coordination Complexes for Dual Visible/Near‐Infrared Luminescence

Golesorkhi

Guénée

Nozary

et al. 2018

Chemistry A European J

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Intrigued by the unexpected room-temperature dual visible/near-infrared (NIR) luminescence observed for fast-relaxing erbium complexes embedded in triple-stranded helicates, in this contribution, we explore a series of six tridentate N-donor receptors L4-L9 with variable aromaticities and alkyl substituents to extricate the stereoelectronic features responsible for such scarce optical signatures. Detailed solid-state (X-ray diffraction, differential scanning calorimetry, optical spectroscopy) and solution (speciations and thermodynamic stabilities, spectrophotometry, NMR and optical spectroscopy) studies of mononuclear unsaturated [Er(Lk) ] and saturated triple-helical [Er(Lk) ] model complexes reveal that the stereoelectronic changes induced by the organic ligands affect inter- and intramolecular interactions to such an extent that 1) melting temperatures in solids, 2) the affinity for trivalent erbium in solution, and 3) optical properties in luminescent complexes can be rationally varied and controlled. With this toolkit in hand, mononuclear erbium complexes with low stabilities displaying only NIR emission can be transformed into molecular-based dual Er-centered visible/NIR emitters operating at room temperature in both solid and solution states.

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Section: Resultsmentioning

confidence: 99%

Thermodynamic Programming of Erbium(III) Coordination Complexes for Dual Visible/Near‐Infrared Luminescence

Golesorkhi

Guénée

Nozary

et al. 2018

Chemistry A European J

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“…where I (t) is the emission intensity at time t . As a reference, the luminescence decay for OFBT bound to undoped NaYF 4 NPs was also measured (red) with τ avg =13.0 ns.…”

Section: Resultsmentioning

confidence: 99%

“…where I(t) is the emission intensity at time t. [24,25] As a reference, the luminescence decay for OFBT bound to undoped NaYF 4 NPs was also measured (red) with τ avg = 13.0 ns. The OFBT emission in the OFBT@ NaYF 4 : Nd 3 + hybrid NPs (blue) shows a faster decay with a τ avg of 10.4 ns, indicating that energy transfer from OFBT to Nd 3 + occurs which reduces the lifetime by introducing an extra decay channel through Förster-type energy transfer.…”

Section: Resultsmentioning

confidence: 99%

Duel‐Responsive Hybrid Nanoparticle with Energy Transfer Modulated Near Infrared Emission

Liu

et al. 2020

ChemNanoMat

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Lanthanide (Ln) activated systems are characterized by the rich line-shaped emission spectra stemming from the parity-forbidden inner shell f-f transitions. This inherent nature of Ln ions efficiently stabilizes their emissions against environment perturbations, but always necessitates the use of strong and broadband sensitizer to achieve efficient emission. Here, based on a model near-infrared (NIR) emitting system -NaYF 4 : Nd 3 + NPs, we demonstrate sensitized NIR emission by grafting the nanoparticle (NP) surfaces with a visible-light active organic conjugated oligomer, 4,7-(9,9'-bis (4-carboxybutyl)-fluorenyl)-2,1,3-benzothiadiazole (OFBT). Photoluminescence (PL) emission, excitation and time-resolved spectra confirm energy transfer from the OFBT molecules to nanoparticles across the organic/inorganic interfaces, and the efficiency of ET is quantitatively determined by the surface coverage of OFBT molecules and concentration of Ln ions in the NPs. By taking advantage of the environment-sensitive binding strength of OFBT to NP surface, we further demonstrate high sensitivity of the NIR emission from the hybrid NPs to variations in pH and temperature, which is explained by the change in energy transfer efficiency from OFBT to NPs. Therefore, the developed nano-hybrid systems are believed to have potential applications in sensing and detection in physiological environment.[a] Dr.

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“…[17] Thea bsorption spectrum (Figure 1b)d isplays the expected Er-centered transitions with non-negligible (for f-f transitions) molar absorption coefficients (2 e 7Lmol À1 cm À1 ), which are still compatible with millisecondrange radiative lifetimes (Figure 1b;Supporting Information, Table S1). [18] Theemission spectrum of [Er(L4) 3 ] 3+ ,which was recorded upon ligand-centered excitation, displays residual 1 p*! 1 p ligand-centered fluorescence together with dual visible Er( 4 S 3/2 !…”

Section: Trivalent Erbium With Its Open-shell Electronic Configurationmentioning

confidence: 99%

Room‐Temperature Linear Light Upconversion in a Mononuclear Erbium Molecular Complex

et al. 2018

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To date,t he piling up of successive photons of low energies (near infrared;N IR) using as ingle lanthanide center and linear optics to ultimately produce upconverted visible emission was restricted to low-phonon solid materials and nanoparticles.Now we show that the tight helical wrapping of three terdentate N-donor ligands around as ingle nine-coordinate trivalent erbium cation provides favorable conditions for am ononuclear molecular complex to exhibit unprecedented related upconverted emission. Low power NIR laser excitations into the metal-centered transitions Er( 4 I 11/2 ! 4 I 15/2 ) at 801 nm or Er( 4 I 13/2 ! 4 I 15/2 )a t966nmr esult in upconverted blue-green emissions,where two or three photonsrespectively are successively absorbed by am olecular lanthanide complex possessing high-energy vibrations.

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Photonic Effects for Magnetic Dipole Transitions

Cited by 24 publications

References 39 publications

Thermodynamic Programming of Erbium(III) Coordination Complexes for Dual Visible/Near‐Infrared Luminescence

Thermodynamic Programming of Erbium(III) Coordination Complexes for Dual Visible/Near‐Infrared Luminescence

Duel‐Responsive Hybrid Nanoparticle with Energy Transfer Modulated Near Infrared Emission

Room‐Temperature Linear Light Upconversion in a Mononuclear Erbium Molecular Complex

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