Raman spectrum and normal co-ordinate analysis of chromyl chloride

“…At room temperature, the equilibrium constant for the formation of the chromic acid is not favorable and thus this species exists at only extremely low pH. As we previously discussed, the ν as (CrO 2 ) asymmetric stretching band in both of the free acids should be in a similar frequency range as observed for the chromyl halogenides, like CrO 2 Cl 2 , where this strong band has been found in the vicinity of 1000 cm -1 . − There is no evidence for such a band in the high-temperature IR data on the left-hand side of Figure , and the free acids appear to play no important role as equilibrium species at the investigated experimental conditions. Furthermore, the set of ligand-to-metal charge-transfer bands (LMCT) for chromic acid 22 is at significantly different energies than for chromate or bichromate.…”

An Infrared and X-ray Absorption Study of the Structure and Equilibrium of Chromate, Bichromate, and Dichromate in High-Temperature Aqueous Solutions

“…At room temperature, the equilibrium constant for the formation of the chromic acid is not favorable and thus this species exists at only extremely low pH. As we previously discussed, the ν as (CrO 2 ) asymmetric stretching band in both of the free acids should be in a similar frequency range as observed for the chromyl halogenides, like CrO 2 Cl 2 , where this strong band has been found in the vicinity of 1000 cm -1 . − There is no evidence for such a band in the high-temperature IR data on the left-hand side of Figure , and the free acids appear to play no important role as equilibrium species at the investigated experimental conditions. Furthermore, the set of ligand-to-metal charge-transfer bands (LMCT) for chromic acid 22 is at significantly different energies than for chromate or bichromate.…”

An Infrared and X-ray Absorption Study of the Structure and Equilibrium of Chromate, Bichromate, and Dichromate in High-Temperature Aqueous Solutions

“…385 (w), 345 (w), 320 (w), 300 (w). The powder spectrum gave the following d values (in Á) with their respective intensities: 10.22 (s), 7.41 (s), 7.08 (s), 5.49 (vs), 5.06 (m), 4.66 (vs), 4.48 (m), 4.34 (m), 4.09 (s). 3.95 (m), 3.72 (vs), 3.51 (m), 3.11 (m), 3.06 (m), 2.82 (s), 2.69 (m).…”

New chromyl compounds. II. Reaction of chromyl trifluoroacetate with strong acids

“…50 A estrutura de cloreto de cromilo, CrO 2 Cl 2 , também foi determinada no estudo de difração de elétrons, 49 51 Quatro frequências fundamentais foram observadas no espectro infravermelho de CrO 2 Cl 2 , sendo que oito modos são ativos infravermelho. No caso do espectro Raman, Stammreich et al 52 atribuíram as noves frequências fundamentais esperadas para CrO 2 Cl 2 de acordo com o grupo de ponto C 2v : 4 A 1 + 1 A 2 + 2 B 1 + 2 B 2 . A análise de coordenadas normais realizada com um campo de força quadrático resultou em frequências calculadas em excelente concordância com as experimentais.…”

“…53,54 A ordem de ligação maior de Cr-O em CrO 2 Cl 2 resulta na frequência de estiramento maior em comparação com a mesma ligação nos oxoânions. 52 Análise de coordenadas normais para moléculas AB 3 , grupo de ponto C 3v , foi realizada para vários trihaletos: 55 PF 3 , PCl 3 , PBr 3 , AsF 3 , AsCl 3 , SbCl 3 e BiCl 3 . O campo de força usado na análise incluiu quatro constantes de força para o estiramento da ligação, dobramento de ângulo e para as correlações entre ligações e entre ângulos.…”

Uma Releitura Dos Artigos Científicos Do Prof. Hans Stammreich