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Observation of [Al(OH) n (H2O)6-n ] n (MoO4) in hydrotreating catalyst precursors by solid-state27 Al NMR (1993)

Edwards, John C. ; Decanio, Elaine C.

Springer

Catalysis letters 19 (1993), S. 121-130

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ISSN: 1572-879X

Keywords: Solid-state27Al NMR ; cross-polarization ; hydrotreating catalyst precursors ; hydrated aluminum molybdates

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract A previously unobserved octahedral27Al MAS NMR resonance has been detected in rehydrated calcined Mo/Al2O3 hydrotreating catalyst precursors. This resonance is attributed to the presence of hydrated forms of aluminum molybdate such as [Al(OH) n (H2O)6-n ] n (MoO4) (n = 1 or 2). The cross-polarization relaxation parameters, obtained from variable contact time experiments, yielded information on the relative sizes of the [Al(OH) n (H2O)6-n ] n (MoO4) domains in the catalysts with different molybdenum loadings. Analysis of the27A1 MAS NMR spectra of P-Mo(8)/Al2O3 and P-Mo(12)/Al2O3 (wt%P = 0.0–12.0) shows that a function of the phosphate in the 12 wt% Mo catalyst is to prevent the re-hydration of the molybdate phases on the calcined catalysts.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00771746

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Solid-state NMR and FT-IR investigation of 12-tungstophosphoric acid on TiO2 (1998)

Edwards, John C. ; Thiel, C. Yvonne ; Benac, Brian ; [et al.]

Springer

Catalysis letters 51 (1998), S. 77-83

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ISSN: 1572-879X

Keywords: 12-tungstophosphoric acid ; titania ; 31P and 1H MAS-NMR

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The chemical and dynamic nature of the tungstophosphoric acid (TPA) species adsorbed on pressed, extruded, and powdered TiO2 support was studied by 31P and 1H solid-state NMR spectroscopy and diffuse reflectance FT-IR. From 31P NMR and FT-IR results the TPA appeared to be present in at least five forms on the titania surface: a bulk salt phase, two weakly bound intact Keggin species, a range of partially fragmented clusters such as the 11-“defect” Keggin ion, and a range of species formed by high or complete fragmentation of the Keggin ion. The relative amount of these species varied depending on the form of the support. Adsorption was incomplete on extruded titania resulting in bulk salt formation. There was almost complete adsorption on pressed titania pellets, yielding predominantly fragmented Keggin units, along with a small amount of bulk salt. However, complete adsorption (and fragmentation) without bulk salt formation was attained by impregnation of powdered TiO2. The acidic nature of the catalysts and the degree of TPA dispersion were investigated by solid-state 1H high-speed MAS-NMR. Pure TPA salt yielded resonances at about 6.5 ppm. The catalysts yielded acidic proton resonances at about 7–8 and 10–11.5 ppm. The broad resonance observed at 7–8 ppm is due to a dispersion of acidic sites on the surface. The intensity of the acidic resonance at around 11 ppm increased with adsorption effectiveness and could, therefore, be related to the formation of hydroxonium ions upon fragmentation of adsorbed Keggin ions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1019045319788

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Temperature sensitive pet mutants in yeast Saccharomyces cerevisiae that lose mitochondrial RNA (1987)

Mueller, David M. ; Biswas, Tapan K. ; Backer, James ; [et al.]

Springer

Current genetics 11 (1987), S. 359-367

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ISSN: 1432-0983

Keywords: Yeast ; Mitochondrial ; Mutants ; RNA

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary This is a description of a new class of temperature sensitive pet mutants in Saccharomyces cereviase that lose all or part of their mitochondrial RNA at the restrictive temperature. These mutants fall into 8 different complementation groups, mna1 to mna8, and 2 different classes based on their phenotype. Class I mutations, mna1-1 through mna5-1, cause complete or partial loss of mitochondrial RNA at the restrictive temperature. The mutation, mna1-1, is especially interesting since it causes a loss of both mitochondrial DNA and RNA when the mutant is grown on a fermentable carbon source at the restrictive temperature. However, when this mutant is grown at the permissive temperature on a non-fermentable carbon source then shifted to the restrictive temperature, only the mitochondrial RNA is lost. This indicates that the primary cause for the pet phenotype is due to the loss of mitochondrial RNA and not DNA. Class II mutations, mna6-1 through man8-1, cause complete loss of the 14S rRNA after growth at the restrictive temperature in a fermentable carbon source. This loss appears to be specific for the 14S rRNA, since all other transcripts probed by Northern analysis are normal.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00378178

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