Farbe und Konstitution von Komplexverbindungen der Übergangselemente

Hartmann, Hermann; Schläfer, H. L.

doi:10.1002/ange.19540662403

Cited by 53 publications

(4 citation statements)

References 34 publications

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“…They are mainly of two types: M2[VO(ox)2](xH20) and M¡r (360). The electronic spectrum of this latter ion has been recorded several times (146,163,185), and there is some support (390) for the two species VO(Hox)2 and VO(Hox)+. A compound with the unusual empirical formula VO (ox) (H2ox) (3H20) has been prepared ( 332), but nothing is known of its structure.…”

Section: B the Complexes With Multidentate Ligandsmentioning

confidence: 96%

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The Chemistry of Oxovanadium(IV)

Selbin¹

1965

Chem. Rev.

550

166

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Section: B the Complexes With Multidentate Ligandsmentioning

confidence: 96%

“…The thermal decomposition of these oxalates in vacuo yields V203 as final product (322). Oxalato complexes form very readily and have been prepared and studied many times (94,163,204,221,310,322,332,357,384,387,390). They are mainly of two types: M2[VO(ox)2](xH20) and M¡r (360).…”

Section: B the Complexes With Multidentate Ligandsmentioning

confidence: 99%

The Chemistry of Oxovanadium(IV)

Selbin¹

1965

Chem. Rev.

550

166

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“…The absorption spectra of the chelates formed by cobalt, nickel, copper, palladium, and iron with 8-quinolinol, salicylaldehyde, salicylaldoxime, salicylaldimine, and dimethyl-and diphenylglyoxime have been determined (597). The quantum mechanical theory of light absorption has been used in relating the color and constitution of complex ions (227). The anomalous bands due to chromophores and the relationship between stability of the complex and the shift in absorption spectra have been studied.…”

Section: Chemistrymentioning

confidence: 99%

Light Absorption Spectrometry

Mellon¹,

Boltz²

1956

Anal. Chem.

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“…This opinion was growing up within a few years, and even H. Hartmann and H.L. Schl~ifer [21] gave in 1954 the "coup de grace" by finding that the aqua ions have lower A than the ammonia complexes of, e.g., chromium(III), cobalt(III) and rhodium(III) have higher A than any known anion complexes of these d group Werner-S.M. Jorgensen complexes (this was later confirmed for fluoride ligation).…”

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confidence: 99%

Luminescence of cerium(III) inter-shell transitions and scintillator action

Jørgensen

Optical and Electronic Phenomena in Sol-Gel Glasses and Modern Application

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Cerium(III) energy levels and photophysics represent an intermediate status between d-group behavior and the other lanthanides showing narrow absorption bands and luminescence bands reminiscent of 4f q configuration atomic energy levels. Once the energetic separations of 0.5 to 2 eV of 5d-like orbitals are recognized to provide huge Stokes shifts and rather wide emission bands, it is also obvious that Ce(III) does not have a standard symmetry of ligating atoms (e.g. coordination number N = 9 and D3h known from aqua ions and anhydrous LnCI3 and LnBr3) but N is often 12, I 1,8, 7 or 6 (and rarely octahedral, as frequent in the d groups), 8 in irregular symmetries perhaps most typical. Scintillators for detecting very high kinetic energies (approaching the relativistic regime of photons and particles with very low rest-mass) involve closed shells, such as 4f and 5d in lutetium(Ill); barium 5p, 5d and 4f in highly electrovalent barium(II) in transparent crystals; and perhaps 4fand 6s in hafnium(IV) and tantalum(V) fluorides.

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Farbe und Konstitution von Komplexverbindungen der Übergangselemente

Cited by 53 publications

References 34 publications

The Chemistry of Oxovanadium(IV)

The Chemistry of Oxovanadium(IV)

Light Absorption Spectrometry

Luminescence of cerium(III) inter-shell transitions and scintillator action

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