Judith Grimm scite author profile

The Istituto di Geoscienze e Georisorse (IGG), on behalf and with the support of the International Atomic Energy Agency (IAEA), prepared eight geological materials (three natural waters and five rocks and minerals), intended for a blind interlaboratory comparison of measurements of boron isotopic composition and concentration. The materials were distributed to twenty seven laboratories ‐ virtually all those performing geochemical boron isotope analyses in the world ‐which agreed to participate in the intercomparison exercise. Only fifteen laboratories, however, ultimately submitted the isotopic and/or concentration results they obtained on the intercomparison materials. The results demonstrate that interlaboratory reproducibility is not well reflected by the precision values reported by the individual laboratories and this observation holds true for both boron concentration and isotopic composition. The reasons for the discrepancies include fractionations due to the chemical matrix of materials, relative shift of the zero position on the δ11B scale and a lack of well characterized materials for calibrating absolute boron content measurements. The intercomparison materials are now available at the IAEA (solid materials) and IGG (waters) for future distribution.

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Light-Emission and Excited-State Dynamics in Tm²⁺ Doped CsCaCl₃, CsCaBr₃, and CsCaI₃

Grimm

Suyver

Beurer

et al. 2006

J. Phys. Chem. B

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The light-emission and photophysical properties of CsCaCl3:Tm2+ (1.04%), CsCaBr3:Tm2+ (0.48%), and CsCaI3:Tm2+ (0.76%) are presented. We find that Tm2+ is a multiple emitter under 21,834 cm-1 laser excitation at low temperatures in all three compounds. Several distinct types of emission are observed and characterized: sharp and long-lived 4f-4f emission in the infrared (IR) and up to four broad and fast decaying emission bands in the near-IR and visible, originating from the 4f-5d states of Tm2+. The optical spectroscopic properties of the samples are compared, and we find that the measured differences in the relative intensities and the shifts in the position of the emissions can be related to the chemical influence on the absorption and emission properties of Tm2+. Thus, it nicely illustrates the principle of chemical variation on the optical spectroscopic properties. An investigation of the temperature dependence of the luminescence yields important information about the dynamics of the excited states. The interplay and competition between radiative and nonradiative pathways is explained and modeled using a single configurational coordinate approach.

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Five different types of spontaneous emission simultaneously observed in Tm2+ doped CsCaBr3

Grimm

Güdel

2005

Chemical Physics Letters

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4f–4f and 4f–5d excited states and luminescence properties of - doped CaF2, CaCl2, SrCl2 and BaCl2

Grimm

Wenger

Krämer

et al. 2007

Journal of Luminescence

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Upconversion Between 4f–5d Excited States in Tm²⁺‐Doped CsCaCl₃, CsCaBr₃, and CsCaI₃

Grimm

Beurer

Gerner

et al. 2007

Chemistry A European J

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Near-infrared to visible upconversion luminescence in CsCaCl3:Tm2+, CsCaBr3:Tm2+ and CsCaI3:Tm2+ is presented and analysed. The upconversion process involves exclusively the 4f-5d excited states of Tm2+, which is a novelty among upconversion materials. The presence of more than one long-lived 4f-5d excited state is the prerequisite for this. Multiple emissions from Tm2+ are observed in the title compounds. This is made possible by the favourable energy structure within the 4f-5d states and the low phonon energies of the materials. The energy positions of the relevant 4f-5d states, and thus the photophysical and light emission properties, are affected by the chemical variation along the series. The upconversion efficiency increases from chloride to iodide and the mechanism is found to be a combination of absorption and energy-transfer steps.

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Judith Grimm

Novel materials doped with trivalent lanthanides and transition metal ions showing near-infrared to visible photon upconversion

Upconversion spectroscopy and properties of NaYF4 doped with , and/or

Highly efficient near-infrared to visible up-conversion process in

Intercomparison of Boron Isotope and Concentration Measurements. Part II: Evaluation of Results

Light-Emission and Excited-State Dynamics in Tm²⁺ Doped CsCaCl₃, CsCaBr₃, and CsCaI₃

Five different types of spontaneous emission simultaneously observed in Tm2+ doped CsCaBr3

4f–4f and 4f–5d excited states and luminescence properties of - doped CaF2, CaCl2, SrCl2 and BaCl2

Upconversion Between 4f–5d Excited States in Tm²⁺‐Doped CsCaCl₃, CsCaBr₃, and CsCaI₃

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Judith Grimm

Novel materials doped with trivalent lanthanides and transition metal ions showing near-infrared to visible photon upconversion

Upconversion spectroscopy and properties of NaYF4 doped with , and/or

Highly efficient near-infrared to visible up-conversion process in

Intercomparison of Boron Isotope and Concentration Measurements. Part II: Evaluation of Results

Light-Emission and Excited-State Dynamics in Tm2+ Doped CsCaCl3, CsCaBr3, and CsCaI3

Five different types of spontaneous emission simultaneously observed in Tm2+ doped CsCaBr3

4f–4f and 4f–5d excited states and luminescence properties of - doped CaF2, CaCl2, SrCl2 and BaCl2

Upconversion Between 4f–5d Excited States in Tm2+‐Doped CsCaCl3, CsCaBr3, and CsCaI3

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Light-Emission and Excited-State Dynamics in Tm²⁺ Doped CsCaCl₃, CsCaBr₃, and CsCaI₃

Upconversion Between 4f–5d Excited States in Tm²⁺‐Doped CsCaCl₃, CsCaBr₃, and CsCaI₃