Birgit Hischa scite author profile

Birgit Hischa

4Publications

13Citation Statements Received

64Citation Statements Given

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University of Regensburg

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Structural Chemistry of Halide including Thallides A8Tl11X1−n (A = K, Rb, Cs; X = Cl, Br; n = 0.1–0.9)

et al. 2018

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A8Tl11 (A = alkali metal) compounds have been known since the investigations of Corbett et al. in 1995 and are still a matter of current discussions as the compound includes one extra electron referred to the charge of the Tl117− cluster. Attempts to substitute this additional electron by incorporation of a halide atom succeeded in the preparation of single crystals for the lightest triel homologue of the group, Cs8Ga11Cl, and powder diffraction experiments for the heavier homologues also suggested the formation of analogous compounds. However, X-Ray single crystal studies on A8Tl11X to prove this substitution and to provide a deeper insight into the influence on the thallide substructure have not yet been performed, probably due to severe absorption combined with air and moisture sensitivity for this class of compounds. Here, we present single crystal X-Ray structure analyses of the new compounds Cs8Tl11Cl0.8, Cs8Tl11Br0.9, Cs5Rb3Tl11Cl0.5, Cs5.7K2.3Tl11Cl0.6 and K4Rb4Tl11Cl0.1. It is shown that a (partial) incorporation of halide can also be indirectly determined by examination of the Tl-Tl distances, thereby the newly introduced cdd/cdav ratio allows to evaluate the degree of distortion of Tl117− clusters.

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Synthesis, crystal structure, photoluminescence and photochemistry of bis(triphenylphosphine)silver(I) flavonolate

Vogler

Hischa

2018

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The complex Ag(I)(flavonolate)(PPh3)2 has been prepared and characterized including the crystal structure. This compound shows in degassed solution two emission bands, a fluorescence at λmax=505 nm and a phosphorescence at λmax=780 nm. Both emissions originate from lowest-energy flavonolate intraligand excited singlet and triplet states, respectively. In the presence of oxygen, the phosphorescence disappears and the complex becomes light-sensitive. The flavonolate ligand undergoes a photooxidation by oxygen.

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Synthesis, crystal structure and photoluminescence of [NHEt₃][Re(I)(quinaldate)(CO)₃Cl]

Vogler

Hischa

Stempfhuber

2019

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The salt [NHEt3][Re(I)(quinaldate)(CO)3Cl] was obtained by the reaction of Re(CO)5Cl with quinaldic acid and triethylamine in toluene. The crystal structure analysis of this salt revealed the presence of the complex anion [Re(quinaldate)(CO)3Cl]−, with the d6 Re(I) metal center in a pseudo-octahedral environment. The electronic spectra in absorption and emission exhibit bands which are attributed to quinaldate IL and CT transitions at comparable energies. The longest-wavelength emission originates from a Re(I) to quinaldate MLCT triplet, which can be quenched in solution by oxygen or triethylamine.

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Synthesis, crystal structure and photoluminescence of the salts Cation⁺ [M(caffeine)Cl]⁻ with Cation⁺=N ⁿ Bu₄ ⁺, AsPh₄ ⁺ and M==Zn(II), Pt(II)

Vogler

Hischa

Stempfhuber

2019

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The salts (NnBu4)[Zn(caffeine)Cl3] and (AsPh4)[Pt(caffeine)Cl3] were prepared and their crystal structures determined by single crystal X-ray diffraction. The free ligand caffeine, as well as the complex anions [M(II)(caffeine)Cl3]− with M = Zn and Pt show an absorption spectrum with an intense band at λmax = 275 nm, which is attributed to an IL π–π* transition of the caffeine. A second band at ca. 300 nm is much weaker and largely obscured by the π–π* band. This second band is assigned to an IL n–π* transition. Both complex anions exhibit a photoluminescence (fluorescence), which originates from the n–π* state. The position of the n–π* state is recognized by the excitation band which distinctly overlaps with the fluorescence band.

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Birgit Hischa

Structural Chemistry of Halide including Thallides A8Tl11X1−n (A = K, Rb, Cs; X = Cl, Br; n = 0.1–0.9)

Synthesis, crystal structure, photoluminescence and photochemistry of bis(triphenylphosphine)silver(I) flavonolate

Synthesis, crystal structure and photoluminescence of [NHEt₃][Re(I)(quinaldate)(CO)₃Cl]

Synthesis, crystal structure and photoluminescence of the salts Cation⁺ [M(caffeine)Cl]⁻ with Cation⁺=N ⁿ Bu₄ ⁺, AsPh₄ ⁺ and M==Zn(II), Pt(II)

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Birgit Hischa

Structural Chemistry of Halide including Thallides A8Tl11X1−n (A = K, Rb, Cs; X = Cl, Br; n = 0.1–0.9)

Synthesis, crystal structure, photoluminescence and photochemistry of bis(triphenylphosphine)silver(I) flavonolate

Synthesis, crystal structure and photoluminescence of [NHEt3][Re(I)(quinaldate)(CO)3Cl]

Synthesis, crystal structure and photoluminescence of the salts Cation+ [M(caffeine)Cl]− with Cation+=N n Bu4 +, AsPh4 + and M==Zn(II), Pt(II)

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Synthesis, crystal structure and photoluminescence of [NHEt₃][Re(I)(quinaldate)(CO)₃Cl]

Synthesis, crystal structure and photoluminescence of the salts Cation⁺ [M(caffeine)Cl]⁻ with Cation⁺=N ⁿ Bu₄ ⁺, AsPh₄ ⁺ and M==Zn(II), Pt(II)