Co2+ in trigonal fields of oxygen based structures: Electronic absorption spectra of buetschliite-type K2Co(SeO3)2, K2Co2(SeO3)3 and zemannite-type K2Co2(SeO3)3 � 2H2O

Wildner, Manfred; Langer, Klaus

doi:10.1007/bf00203215

Cited by 17 publications

References 22 publications

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Raman spectroscopic study of the tellurite minerals: emmonsite Fe₂³⁺Te₃⁴⁺O₉·2H₂O and zemannite Mg_0.5[Zn²⁺Fe³⁺(TeO₃)₃]4.5H₂O

Frost

Dickfos

Keeffe

2008

J Raman Spectroscopy

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Raman spectroscopy has been used to study zemannite Mg 0.5 [Zn 2+ Fe 3+ (TeO 3 ) 3 ]4.5H 2 O and emmonsite Fe2 3+ Te3 4+ O 9 ·2H 2 O. Raman bands for zemannite and emmonsite, observed at 740 and 650 cm −1 and at 764 and 788 cm −1 , respectively, are attributed to the n 1 (TeO 3 / 2− symmetric stretching mode. The splitting of the symmetric stretching mode for emmonsite is in harmony with the results of X-ray crystallography which shows three non-equivalent TeO 3 units in the crystal structure. Two bands at 658 and 688 cm −1 are assigned to n 3 (TeO 3 / 2− anti-symmetric stretching modes. Raman bands observed at 372 and 408 cm −1 for zemannite and 397 and 414 cm −1 for emmonsite are attributed to the (TeO 3 / 2− n 2 .A 1 / bending mode. The two Raman bands at 400 and 440 cm −1 for emmonsite are ascribed to the n 4 .E/ bending modes, while the band at 326 cm −1 is due to the n 2 .A 1 / bending vibration.

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Raman spectroscopic study of the tellurite minerals: emmonsite Fe₂³⁺Te₃⁴⁺O₉·2H₂O and zemannite Mg_0.5[Zn²⁺Fe³⁺(TeO₃)₃]4.5H₂O

Frost

Dickfos

Keeffe

2008

J Raman Spectroscopy

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Raman spectroscopic study of the tellurite mineral: sonoraite Fe³⁺Te⁴⁺O₃(OH)·H₂O

Frost

Keeffe

2008

J Raman Spectroscopy

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Tellurites may be subdivided according to formula and structure. Raman spectroscopy has been used to study sonoraite, an example of a tellurite with hydroxyl and water units in the mineral structure. The free tellurite ion will have C 3v symmetry and four modes, 2A 1 and 2E. An intense Raman band at 779 cm −1 is assigned to the ν 1 (TeO 3 ) 2− symmetric stretching mode. A band at 666 cm −1 with a shoulder at 638 cm −1 is assigned to the ν 3 (TeO 3 ) 2− antisymmetric stretching mode. Bands at 374 and 387 cm −1 and the two bands at 425 and 468 cm −1 are assigned to the (TeO 3 ) 2− ν 2 (A 1 ) and (TeO 3 ) 2− ν 4 (E) bending modes, respectively. The sharp band at 3423 cm −1 assigned to the OH stretching vibration of the OH unit is superimposed upon a broader spectral profile with Raman bands at 3000, 3223, 3350 and 3450 cm −1 which are attributed to water stretching bands. The technique of Raman spectroscopy is excellent for the study of tellurite minerals.

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Crystal Structures and Electronic Absorption Spectra of Two Modifications of Cr(SeO2OH)(Se2O5)

Wildner

Andrut

1998

Journal of Solid State Chemistry

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Co2+ in trigonal fields of oxygen based structures: Electronic absorption spectra of buetschliite-type K2Co(SeO3)2, K2Co2(SeO3)3 and zemannite-type K2Co2(SeO3)3 � 2H2O

Cited by 17 publications

References 22 publications

Raman spectroscopic study of the tellurite minerals: emmonsite Fe₂³⁺Te₃⁴⁺O₉·2H₂O and zemannite Mg_0.5[Zn²⁺Fe³⁺(TeO₃)₃]4.5H₂O

Raman spectroscopic study of the tellurite minerals: emmonsite Fe₂³⁺Te₃⁴⁺O₉·2H₂O and zemannite Mg_0.5[Zn²⁺Fe³⁺(TeO₃)₃]4.5H₂O

Raman spectroscopic study of the tellurite mineral: sonoraite Fe³⁺Te⁴⁺O₃(OH)·H₂O

Crystal Structures and Electronic Absorption Spectra of Two Modifications of Cr(SeO2OH)(Se2O5)

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Co2+ in trigonal fields of oxygen based structures: Electronic absorption spectra of buetschliite-type K2Co(SeO3)2, K2Co2(SeO3)3 and zemannite-type K2Co2(SeO3)3 � 2H2O

Cited by 17 publications

References 22 publications

Raman spectroscopic study of the tellurite minerals: emmonsite Fe23+Te34+O9·2H2O and zemannite Mg0.5[Zn2+Fe3+(TeO3)3]4.5H2O

Raman spectroscopic study of the tellurite minerals: emmonsite Fe23+Te34+O9·2H2O and zemannite Mg0.5[Zn2+Fe3+(TeO3)3]4.5H2O

Raman spectroscopic study of the tellurite mineral: sonoraite Fe3+Te4+O3(OH)·H2O

Crystal Structures and Electronic Absorption Spectra of Two Modifications of Cr(SeO2OH)(Se2O5)

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Raman spectroscopic study of the tellurite minerals: emmonsite Fe₂³⁺Te₃⁴⁺O₉·2H₂O and zemannite Mg_0.5[Zn²⁺Fe³⁺(TeO₃)₃]4.5H₂O

Raman spectroscopic study of the tellurite minerals: emmonsite Fe₂³⁺Te₃⁴⁺O₉·2H₂O and zemannite Mg_0.5[Zn²⁺Fe³⁺(TeO₃)₃]4.5H₂O

Raman spectroscopic study of the tellurite mineral: sonoraite Fe³⁺Te⁴⁺O₃(OH)·H₂O